Your search keyword '"Central America"' showing total 154 results

1. Morphogenesis in Trypanosoma cruzi epimastigotes proceeds via a highly asymmetric cell division.

Author

Campbell, Paul C. and de Graffenried, Christopher L.

Subjects

*TRYPANOSOMA cruzi, *CELL division, *CELL cycle proteins, *NEGLECTED diseases, *CELL morphology, *LIFE cycles (Biology), *TRICHOMONIASIS

Abstract

Trypanosoma cruzi is a protist parasite that is the causative agent of Chagas disease, a neglected tropical disease endemic to the Americas. T. cruzi cells are highly polarized and undergo morphological changes as they cycle within their insect and mammalian hosts. Work on related trypanosomatids has described cell division mechanisms in several life-cycle stages and identified a set of essential morphogenic proteins that serve as markers for key events during trypanosomatid division. Here, we use Cas9-based tagging of morphogenic genes, live-cell imaging, and expansion microscopy to study the cell division mechanism of the insect-resident epimastigote form of T. cruzi, which represents an understudied trypanosomatid morphotype. We find that T. cruzi epimastigote cell division is highly asymmetric, producing one daughter cell that is significantly smaller than the other. Daughter cell division rates differ by 4.9 h, which may be a consequence of this size disparity. Many of the morphogenic proteins identified in T. brucei have altered localization patterns in T. cruzi epimastigotes, which may reflect fundamental differences in the cell division mechanism of this life cycle stage, which widens and shortens the cell body to accommodate the duplicated organelles and cleavage furrow rather than elongating the cell body along the long axis of the cell, as is the case in life-cycle stages that have been studied in T. brucei. This work provides a foundation for further investigations of T. cruzi cell division and shows that subtle differences in trypanosomatid cell morphology can alter how these parasites divide. Author summary: Trypanosoma cruzi causes Chagas disease, which is among the most neglected of tropical diseases, affecting millions of people in South and Central America along with immigrant populations around the world. T. cruzi is related to other important pathogens such as Trypanosoma brucei and Leishmania spp, which have been the subject of molecular and cellular characterizations that have provided an understanding of how these organisms shape their cells and undergo division. Work in T. cruzi has lagged due to an absence of molecular tools for manipulating the parasite and the complexity of the original published genome; these issues have recently been resolved. Building on work in T. brucei, we have studied the localization of key cell cycle proteins and quantified changes in cell shape during division in an insect-resident form of T. cruzi. This work has uncovered unique adaptations to the cell division process in T. cruzi and provides insight into the range of mechanisms this family of important pathogens can employ to colonize their hosts. [ABSTRACT FROM AUTHOR]

Published

2023

2. Convergent trends and spatiotemporal patterns of Aedes-borne arboviruses in Mexico and Central America.

Author

Gutierrez, Bernardo, da Silva Candido, Darlan, Bajaj, Sumali, Rodriguez Maldonado, Abril Paulina, Ayala, Fabiola Garces, Rodriguez, María de la Luz Torre, Rodriguez, Adnan Araiza, Arámbula, Claudia Wong, González, Ernesto Ramírez, Martínez, Irma López, Díaz-Quiñónez, José Alberto, Pichardo, Mauricio Vázquez, Hill, Sarah C., Thézé, Julien, Faria, Nuno R., Pybus, Oliver G., Preciado-Llanes, Lorena, Reyes-Sandoval, Arturo, Kraemer, Moritz U. G., and Escalera-Zamudio, Marina

Subjects

*ARBOVIRUSES, *VIRAL genomes, *HUMAN migrations, *INFECTIOUS disease transmission, DEVELOPING countries

Abstract

Background: Aedes-borne arboviruses cause both seasonal epidemics and emerging outbreaks with a significant impact on global health. These viruses share mosquito vector species, often infecting the same host population within overlapping geographic regions. Thus, comparative analyses of the virus evolutionary and epidemiological dynamics across spatial and temporal scales could reveal convergent trends. Methodology/Principal findings: Focusing on Mexico as a case study, we generated novel chikungunya and dengue (CHIKV, DENV-1 and DENV-2) virus genomes from an epidemiological surveillance-derived historical sample collection, and analysed them together with longitudinally-collected genome and epidemiological data from the Americas. Aedes-borne arboviruses endemically circulating within the country were found to be introduced multiple times from lineages predominantly sampled from the Caribbean and Central America. For CHIKV, at least thirteen introductions were inferred over a year, with six of these leading to persistent transmission chains. For both DENV-1 and DENV-2, at least seven introductions were inferred over a decade. Conclusions/Significance: Our results suggest that CHIKV, DENV-1 and DENV-2 in Mexico share evolutionary and epidemiological trajectories. The southwest region of the country was determined to be the most likely location for viral introductions from abroad, with a subsequent spread into the Pacific coast towards the north of Mexico. Virus diffusion patterns observed across the country are likely driven by multiple factors, including mobility linked to human migration from Central towards North America. Considering Mexico's geographic positioning displaying a high human mobility across borders, our results prompt the need to better understand the role of anthropogenic factors in the transmission dynamics of Aedes-borne arboviruses, particularly linked to land-based human migration. Author summary: Mexico is endemic to several Aedes-borne arboviruses relevant to global health, and ranks within the top five countries in the Americas that report the highest case numbers. Our study provides a general overview of arbovirus introduction, spread and establishment patterns in North and Central America, and should be of interest to both local health and global authorities. Moreover, it sets to explore the paradigm of convergence at different scales in independent virus populations, represented by comparable epidemiological and evolutionary trends in Aedes-borne arboviruses sharing ecological niches. Our results represent important advances in the study of mosquito-borne viruses listed as a threat to global health, specifically applied to key countries within the developing world. [ABSTRACT FROM AUTHOR]

Published

2023

3. Phylogenetic and biogeographical traits predict unrecognized hosts of zoonotic leishmaniasis.

Author

Glidden, Caroline K., Murran, Aisling Roya, Silva, Rafaella Albuquerque, Castellanos, Adrian A., Han, Barbara A., and Mordecai, Erin A.

Subjects

*LEISHMANIASIS, *LEISHMANIA mexicana, *VECTOR-borne diseases, *GLOBAL warming, *ZOONOSES, *AGRICULTURE

Abstract

The spatio-temporal distribution of leishmaniasis, a parasitic vector-borne zoonotic disease, is significantly impacted by land-use change and climate warming in the Americas. However, predicting and containing outbreaks is challenging as the zoonotic Leishmania system is highly complex: leishmaniasis (visceral, cutaneous and muco-cutaneous) in humans is caused by up to 14 different Leishmania species, and the parasite is transmitted by dozens of sandfly species and is known to infect almost twice as many wildlife species. Despite the already broad known host range, new hosts are discovered almost annually and Leishmania transmission to humans occurs in absence of a known host. As such, the full range of Leishmania hosts is undetermined, inhibiting the use of ecological interventions to limit pathogen spread and the ability to accurately predict the impact of global change on disease risk. Here, we employed a machine learning approach to generate trait profiles of known zoonotic Leishmania wildlife hosts (mammals that are naturally exposed and susceptible to infection) and used trait-profiles of known hosts to identify potentially unrecognized hosts. We found that biogeography, phylogenetic distance, and study effort best predicted Leishmania host status. Traits associated with global change, such as agricultural land-cover, urban land-cover, and climate, were among the top predictors of host status. Most notably, our analysis suggested that zoonotic Leishmania hosts are significantly undersampled, as our model predicted just as many unrecognized hosts as unknown hosts. Overall, our analysis facilitates targeted surveillance strategies and improved understanding of the impact of environmental change on local transmission cycles. Author summary: Leishmaniasis is a zoonotic, vector borne disease of poverty with a high burden throughout the Americas: within Latin America there are an estimated 58,500 new cases per year and 54,050 years of life lost due to disability. Although the World Health Organization has targeted leishmaniasis for elimination and control by 2030, the disease remains a persistent threat. Across the Americas, particularly in Central America, the southeastern United States, and perimeters of the Amazon Basin, risk of infection is increasing in geographic extent and elevation. While it is known that Leishmania parasites, the causative agent of leishmaniasis, are maintained in the environment via a mammalian host, the full suite of wildlife hosts has yet to be documented, which significantly hinders control efforts. Here, we use machine learning and ecological and evolutionary trait profiles of known hosts to identify unrecognized potential wildlife hosts of Leishmania. We identify 136 mammals in the Americas that are likely to be exposed to and infected by zoonotic Leishmania in the wild. The high number of unrecognized potential hosts emphasizes a need to better invest in studying the ecological epidemiology of leishmaniasis. The study provides information and tools to support targeted intervention and management of this important poverty-associated disease. [ABSTRACT FROM AUTHOR]

Published

2023

4. Genomic and phenotypic analyses suggest moderate fitness differences among Zika virus lineages.

Author

Oliveira, Glenn, Vogels, Chantal B. F., Zolfaghari, Ashley, Saraf, Sharada, Klitting, Raphaelle, Weger-Lucarelli, James, P. Leon, Karla, Ontiveros, Carlos O., Agarwal, Rimjhim, Tsetsarkin, Konstantin A., Harris, Eva, Ebel, Gregory D., Wohl, Shirlee, Grubaugh, Nathan D., and Andersen, Kristian G.

Subjects

*ZIKA virus, *GENOMICS, *RECOMBINANT viruses, *AEDES aegypti, *INFECTIOUS disease transmission, *ALPHAVIRUSES, *DENGUE hemorrhagic fever

Abstract

RNA viruses have short generation times and high mutation rates, allowing them to undergo rapid molecular evolution during epidemics. However, the extent of RNA virus phenotypic evolution within epidemics and the resulting effects on fitness and virulence remain mostly unknown. Here, we screened the 2015–2016 Zika epidemic in the Americas for lineage-specific fitness differences. We engineered a library of recombinant viruses representing twelve major Zika virus lineages and used them to measure replicative fitness within disease-relevant human primary cells and live mosquitoes. We found that two of these lineages conferred significant in vitro replicative fitness changes among human primary cells, but we did not find fitness changes in Aedes aegypti mosquitoes. Additionally, we found evidence for elevated levels of positive selection among five amino acid sites that define major Zika virus lineages. While our work suggests that Zika virus may have acquired several phenotypic changes during a short time scale, these changes were relatively moderate and do not appear to have enhanced transmission during the epidemic. Author summary: Zika virus was introduced to the Western Hemisphere, spread rapidly, and led to the 2015–2016 Zika epidemic and a rise in congenital microcephaly. It remains unclear whether Zika virus evolved to become more transmissible directly before or during the epidemic. To investigate whether Zika evolved to become more transmissible, we engineered a library of recombinant viruses that represent twelve major Zika virus lineages that circulated throughout the Americas. We measured the replicative fitness of each of these lineages by infecting live mosquitoes and human cells that are relevant for disease or transmission. We found that two of the lineages, one that dominated Central America and another that existed mostly in the Caribbean, appear to replicate more efficiently in human cells. While the fitness changes do not appear to have significant effects on the 2015–2016 Zika epidemic, our analysis suggests Zika virus evolved at least twice during this outbreak. Monitoring the phenotypic evolution during the course of an outbreak can help control spread and mitigate disease. We believe this framework can be applied to study phenotypic evolution during future epidemics caused by emerging RNA viruses. [ABSTRACT FROM AUTHOR]

Published

2023

5. Challenges and lessons learned from the rapid operationalization of a prospective cohort to study the natural history and neurodevelopmental outcomes of postnatal Zika virus infection among infants and children in rural Guatemala.

Author

Paniagua-Avila, Alejandra, Olson, Daniel, Connery, Amy, Calvimontes, D. Mirella, Bolanos, Guillermo A., Lamb, Molly M., Bauer, Desiree, Ralda, Aida, Rojop, Neudy, Barrios, Eduardo, Chacon, Andrea, Gomez, Melissa, Arroyave, Paola, Hernandez, Sara, Martinez, Maria Alejandra, Bunge-Montes, Saskia, Colbert, Alison, Arias, Kareen, Brazeale, Garret, and Holliday, Andrea

Subjects

*ZIKA virus infections, *RURAL children, *EMERGING infectious diseases, *COHORT analysis, *ABANDONED children

Abstract

During the course of the 2015–2017 outbreak of Zika virus (ZIKV) in the Americas, the emerging virus was recognized as a congenital infection that could damage the developing brain. As the Latin American ZIKV outbreak advanced, the scientific and public health community questioned if this newly recognized neurotropic flavivirus could affect the developing brain of infants and young children infected after birth. We report here the study design, methods and the challenges and lessons learned from the rapid operationalization of a prospective natural history cohort study aimed at evaluating the potential neurological and neurodevelopmental effects of postnatal ZIKV infection in infants and young children, which had become epidemic in Central America. This study enrolled a cohort of 500 mothers and their infants, along with nearly 400 children 1.5–3.5 years of age who were born during the initial phase of the ZIKV epidemic in a rural area of Guatemala. Our solutions and lessons learned while tackling real-life challenges may serve as a guide to other researchers carrying out studies of emerging infectious diseases of public health priority in resource-constrained settings. Author summary: During the 2015–17 Zika outbreak in the Americas, many research sites struggled to rapidly establish cohorts to study the neurodevelopmental outcomes of exposed infants and children, due to both logistical difficulties and a lack of appropriately adapted/validated neurodevelopmental tools. During this time period, we conducted a study evaluating the neurodevelopmental outcomes of post-natal ZIKV and dengue virus (DENV) infection among of infants (<3 months at enrollment) and children (1.5–3.5 years at enrollment) at a site in rural, southwest Guatemala. The study, which enrolled a cohort of 500 mother-infant pairs and 400 children, was a collaborative effort that leveraged expertise at multiple institutions to rapidly implement a study protocol in a resource-limited region of Guatemala. In this Methods paper, we describe the study methodology, how we implemented our research protocol in this rural, resource-limited community, and challenges and lessons learned during its operationalization. Specifically, we address how we adapted neurodevelopmental testing tools to the local language and cultural context, trained and managed a research team recruited from the local community, maintained competency and quality control in this workforce, developed critical laboratory infrastructure, and engaged with local community stakeholders. Our approach may serve as a guide to other researchers carrying out future studies focusing on child neurodevelopment as well as clinical evaluation of ZIKV and other emerging infectious diseases of public health priority. [ABSTRACT FROM AUTHOR]

Published

2022

6. Spatial epidemiology and adaptive targeted sampling to manage the Chagas disease vector Triatoma dimidiata.

Author

Case, B. K. M., Young, Jean-Gabriel, Penados, Daniel, Monroy, Carlota, Hébert-Dufresne, Laurent, and Stevens, Lori

Subjects

*CHAGAS' disease, *DISEASE vectors, *TRIATOMA, *COMMUNITY housing, *NEGLECTED diseases, *TICK infestations, *BURULI ulcer

Abstract

Widespread application of insecticide remains the primary form of control for Chagas disease in Central America, despite only temporarily reducing domestic levels of the endemic vector Triatoma dimidiata and having little long-term impact. Recently, an approach emphasizing community feedback and housing improvements has been shown to yield lasting results. However, the additional resources and personnel required by such an intervention likely hinders its widespread adoption. One solution to this problem would be to target only a subset of houses in a community while still eliminating enough infestations to interrupt disease transfer. Here we develop a sequential sampling framework that adapts to information specific to a community as more houses are visited, thereby allowing us to efficiently find homes with domiciliary vectors while minimizing sampling bias. The method fits Bayesian geostatistical models to make spatially informed predictions, while gradually transitioning from prioritizing houses based on prediction uncertainty to targeting houses with a high risk of infestation. A key feature of the method is the use of a single exploration parameter, α, to control the rate of transition between these two design targets. In a simulation study using empirical data from five villages in southeastern Guatemala, we test our method using a range of values for α, and find it can consistently select fewer homes than random sampling, while still bringing the village infestation rate below a given threshold. We further find that when additional socioeconomic information is available, much larger savings are possible, but that meeting the target infestation rate is less consistent, particularly among the less exploratory strategies. Our results suggest new options for implementing long-term T. dimidiata control. Author summary: Effective public health interventions for the control and elimination of neglected tropical diseases require an efficient use of resources while still causing long-term disease reduction at the community level. To use resources to best effect, areas most in need of control efforts must be identified. However, strategies for correctly identifying these areas are rarely known due to the complex environmental, biological, and cultural factors shaping disease spread. In turn, incorrect prioritization of control targets can cause the intervention to have no lasting effect. We address this tradeoff between efficiency and efficacy by adapting control priorities throughout an intervention, targeting areas of high uncertainty during the initial stages while shifting to areas of greatest risk at later stages. In the context of controlling Triatoma dimidiata, the primary vector of Chagas disease in several countries in Latin America, our methods provide a means of targeting only a subset of homes for insecticide and housing improvements, while still reducing a village's overall infestation rate below the critical threshold. [ABSTRACT FROM AUTHOR]

Published

2022

7. Insights from a comprehensive study of Trypanosoma cruzi: A new mitochondrial clade restricted to North and Central America and genetic structure of TcI in the region.

Author

Lima-Cordón, Raquel Asunción, Cahan, Sara Helms, McCann, Cai, Dorn, Patricia L., Justi, Silvia Andrade, Rodas, Antonieta, Monroy, María Carlota, and Stevens, Lori

Subjects

*TRYPANOSOMA cruzi, *CHAGAS' disease, *NEGLECTED diseases, *MITOCHONDRIA, *CONENOSES, *SINGLE nucleotide polymorphisms

Abstract

More than 100 years since the first description of Chagas Disease and with over 29,000 new cases annually due to vector transmission (in 2010), American Trypanosomiasis remains a Neglected Tropical Disease (NTD). This study presents the most comprehensive Trypanosoma cruzi sampling in terms of geographic locations and triatomine species analyzed to date and includes both nuclear and mitochondrial genomes. This addresses the gap of information from North and Central America. We incorporate new and previously published DNA sequence data from two mitochondrial genes, Cytochrome oxidase II (COII) and NADH dehydrogenase subunit 1 (ND1). These T. cruzi samples were collected over a broad geographic range including 111 parasite DNA samples extracted from triatomines newly collected across NA and CA, all of which were infected with T. cruzi in their natural environment. In addition, we present parasite reduced representation (Restriction site Associated DNA markers, RAD-tag) genomic nuclear data combined with the mitochondrial gene sequences for a subset of the triatomines (27 specimens) collected from Guatemala and El Salvador. Our mitochondrial phylogenetic reconstruction revealed two of the major mitochondrial lineages circulating across North and Central America, as well as the first ever mitochondrial data for TcBat from a triatomine collected in Central America. Our data also show that within mtTcIII, North and Central America represent an independent, distinct clade from South America, named here as mtTcIIINA-CA, geographically restricted to North and Central America. Lastly, the most frequent lineage detected across North and Central America, mtTcI, was also an independent, distinct clade from South America, noted as mtTcINA-CA. Furthermore, nuclear genome data based on Single Nucleotide Polymorphism (SNP) showed genetic structure of lineage TcI from specimens collected in Guatemala and El Salvador supporting the hypothesis that genetic diversity at a local scale has a geographical component. Our multiscale analysis contributes to the understanding of the independent and distinct evolution of T. cruzi lineages in North and Central America regions. Author summary: Neglected Tropical Diseases (NTDs) represents socioeconomic burden in most countries of Latin America. Chagas disease, a NTD, is caused by the parasite Trypanosoma cruzi. The disease can be mild, causing swelling and fever, or it can be long-lasting. Left untreated, it often causes heart failure. This study focused on T. cruzi lineages, emphasizing the gap of information from Central America and complementing what is known in North America. Our diverse collection of kissing bugs from North America (United States and Mexico) and Central America identified two of the major mitochondrial lineages circulating in these regions, both representing distinct clades within the already established three clusters of the T. cruzi parasite (mtTcI-mtTcIII): mtTcINA-CA and mtTcIIINA-CA. At a local scale, population genetic structure of T. cruzi revealed that genetic diversity has a notable geographic component. The important insights into the genetic and evolutionary diversity of T. cruzi in North and Central America provide not only the necessity for referencing genomes to identify lineages but the basis to develop more precise and comprehensive diagnostic assays to better detect T. cruzi infections. [ABSTRACT FROM AUTHOR]

Published

2021

8. Isolation and genetic characterization of a relapsing fever spirochete isolated from Ornithodoros puertoricensis collected in central Panama.

Author

Bermúdez, Sergio E., Armstrong, Brittany A., Domínguez, Lillian, Krishnavajhala, Aparna, Kneubehl, Alexander R., Gunter, Sarah M., Replogle, Adam, Petersen, Jeannine M., and Lopez, Job E.

Subjects

*RELAPSING fever, *SPIROCHETES, *MEDICAL personnel

Abstract

Tick-borne relapsing fever (TBRF) spirochetes are likely an overlooked cause of disease in Latin America. In Panama, the pathogens were first reported to cause human disease in the early 1900s. Recent collections of Ornithodoros puertoricensis from human dwellings in Panama prompted our interest to determine whether spirochetes still circulate in the country. Ornithodoros puertoricensis ticks were collected at field sites around the City of Panama. In the laboratory, the ticks were determined to be infected with TBRF spirochetes by transmission to mice, and we report the laboratory isolation and genetic characterization of a species of TBRF spirochete from Panama. Since this was the first isolation of a species of TBRF spirochete from Central America, we propose to designate the bacteria as Borrelia puertoricensis sp. nov. This is consistent with TBRF spirochete species nomenclature from North America that are designated after their tick vector. These findings warrant further investigations to assess the threat B. puertoricensis sp. nov. may impose on human health. Author summary: Tick-borne relapsing fever (TBRF) is an often misdiagnosed neglected tropical disease primarily impacting those in resource limited settings. Most species are transmitted by argasid ticks, but ixodid ticks and the human body louse are also competent vectors. Infection of TBRF spirochetes is challenging to diagnose because argasid ticks are rapid feeders and rarely spotted on the patient. Moreover, given the nonspecific manifestation of disease and poor clinical awareness, TBRF is overlooked. In Central America, TBRF was studied in the Canal Zone of Panama until the 1930s. Over the last 10 years argasid ticks have been reported to colonize human dwellings in the country but it has remained vague if the disease persists. In this study, we demonstrate the transmission of TBRF spirochetes from field collected ticks and the laboratory isolation and genetic characterization of the species. These findings suggest that TBRF spirochetes continue to circulate in Panama and should prompt health care providers to consider this disease when patients present with a fever of unknown origin. Furthermore, with the laboratory isolation of this bacteria, molecular diagnostic tools can be developed to improve epidemiological studies of TBRF spirochetes in Central America. [ABSTRACT FROM AUTHOR]

Published

2021

9. Non-replicating adenovirus based Mayaro virus vaccine elicits protective immune responses and cross protects against other alphaviruses.

Author

Powers, John M., Haese, Nicole N., Denton, Michael, Ando, Takeshi, Kreklywich, Craig, Bonin, Kiley, Streblow, Cassilyn E., Kreklywich, Nicholas, Smith, Patricia, Broeckel, Rebecca, DeFilippis, Victor, Morrison, Thomas E., Heise, Mark T., and Streblow, Daniel N.

Subjects

*VIRAL vaccines, *GENETIC vectors, *ALPHAVIRUSES, *IMMUNE response, *VIRUS diseases

Abstract

Mayaro virus (MAYV) is an alphavirus endemic to South and Central America associated with sporadic outbreaks in humans. MAYV infection causes severe joint and muscle pain that can persist for weeks to months. Currently, there are no approved vaccines or therapeutics to prevent MAYV infection or treat the debilitating musculoskeletal inflammatory disease. In the current study, a prophylactic MAYV vaccine expressing the complete viral structural polyprotein was developed based on a non-replicating human adenovirus V (AdV) platform. Vaccination with AdV-MAYV elicited potent neutralizing antibodies that protected WT mice against MAYV challenge by preventing viremia, reducing viral dissemination to tissues and mitigating viral disease. The vaccine also prevented viral-mediated demise in IFN⍺R1-/- mice. Passive transfer of immune serum from vaccinated animals similarly prevented infection and disease in WT mice as well as virus-induced demise of IFN⍺R1-/- mice, indicating that antiviral antibodies are protective. Immunization with AdV-MAYV also generated cross-neutralizing antibodies against two related arthritogenic alphaviruses–chikungunya and Una viruses. These cross-neutralizing antibodies were protective against lethal infection in IFN⍺R1-/- mice following challenge with these heterotypic alphaviruses. These results indicate AdV-MAYV elicits protective immune responses with substantial cross-reactivity and protective efficacy against other arthritogenic alphaviruses. Our findings also highlight the potential for development of a multi-virus targeting vaccine against alphaviruses with endemic and epidemic potential in the Americas. Author summary: Mayaro virus is an understudied alphavirus that is currently circulating in tropical environments in South and Central America without an approved vaccine. Recent outbreaks have suggested a broadening range and higher likelihood of urban outbreaks, increasing the public health risk. Mayaro virus is closely related to other arthritogenic alphaviruses with overlapping circulation such as chikungunya and Una viruses, both of which also lack clinically approved vaccines. Identification of a safe, easily manufactured, and effective strategy to vaccinate at risk populations is important to control outbreak potential. Here we report on a vaccination approach using a non-replicating adenovirus viral vector that encodes Mayaro virus structural proteins that assemble into non-infectious virus-like particles upon expression following vaccination. These particles stimulate strong immune responses against Mayaro virus. Upon testing against other alphaviruses, it was determined that the vaccine elicits cross-reactive neutralizing antibodies against chikungunya and Una viruses, significantly diminishes disease severity, and protects immunocompromised, highly susceptible mice from death following viral challenge. Our study provides new approaches to protect against these co-circulating viruses using a single vaccine. This approach is highly amenable to other virus targets for vaccine development and its ability to provide protection against chikungunya virus has global ramifications. [ABSTRACT FROM AUTHOR]

Published

2021

10. New features on the survival of human-infective Trypanosoma rangeli in a murine model: Parasite accumulation is observed in lymphoid organs.

Author

Ferreira, Luciana de Lima, Araújo, Fernanda Fortes de, Martinelli, Patricia Massara, Teixeira-Carvalho, Andrea, Alves-Silva, Juliana, and Guarneri, Alessandra Aparecida

Subjects

*TRYPANOSOMA cruzi, *TRYPANOSOMA, *LYMPHOID tissue, *MAMMAL parasites, *HISTOLOGICAL techniques, *PARASITES

Abstract

Trypanosoma rangeli is a non-pathogenic protozoan parasite that infects mammals, including humans, in Chagas disease-endemic areas of South and Central America. The parasite is transmitted to a mammalian host when an infected triatomine injects metacyclic trypomastigotes into the host′s skin during a bloodmeal. Infected mammals behave as parasite reservoirs for several months and despite intensive research, some major aspects of T. rangeli-vertebrate interactions are still poorly understood. In particular, many questions still remain unanswered, e.g. parasite survival and development inside vertebrates, as no parasite multiplication sites have yet been identified. The present study used an insect bite transmission strategy to investigate whether the vector inoculation spot in the skin behave as a parasite-replication site. Histological data from the skin identified extracellular parasites in the dermis and hypodermis of infected mice in the first 24 hours post-infection, as well as the presence of inflammatory infiltrates in a period of up to 7 days. However, qPCR analyses demonstrated that T. rangeli is eliminated from the skin after 7 days of infection despite being still consistently found on circulating blood and secondary lymphoid tissues for up to 30 days post-infection. Interestingly, significant numbers of parasites were found in the spleen and mesenteric lymph nodes of infected mice during different periods of infection and steady basal numbers of flagellates are maintained in the host′s bloodstream, which might behave as a transmission source to insect vectors. The presence of parasites in the spleen was confirmed by fluorescent photomicrography of free and cell-associated T. rangeli forms. Altogether our results suggest that this organ could possibly behave as a T. rangeli maintenance hotspot in vertebrates. Author summary: Trypanosoma rangeli development inside vertebrates is a highly controversial field of study, since there is no evidence of parasite multiplication in host tissues. One of the difficulties that turns it even more complex, it's the challenge to maintain T. rangeli infectivity, since its maintenance in culture decreases parasite's ability to infect its hosts. Our group developed a methodology in which parasites are kept in frequent passages through triatomines and mice, assuring its infectivity and allowing the development of studies more similar to natural transmission. In this study we used qPCR, flow cytometry and histological techniques to evaluate parasite persistence in different tissues and organs of mice infected by the bite of infected bugs, mimicking a natural infection. We found that after one week of infection, parasites as well as inflammatory infiltrates disappear from the inoculation site at the host´s skin. Evaluation of infected mice for a period of 30 days demonstrated that a stable basal amount of parasites was detected in circulating blood, although an increased amount of T. rangeli DNA was found in mesenteric lymph nodes and spleen. In spleen, through marking the parasite with a monoclonal antibody we confirmed the presence of live parasites which were seen in apparent close association with cells and also inside them as apparently amastigote forms, indicating that the parasite is preserved and possibly replicates in these tissues. Our study provides new insights into the interaction of T. rangeli with its vertebrate hosts. [ABSTRACT FROM AUTHOR]

Published

2020

11. Defining a prevalence level to describe the elimination of Lymphatic Filariasis (LF) transmission and designing monitoring & evaluating (M&E) programmes post the cessation of mass drug administration (MDA).

Author

Collyer, Benjamin S., Irvine, Michael A., Hollingsworth, T. Deidre, Bradley, Mark, and Anderson, Roy M.

Subjects

*FILARIASIS, *DRUG administration, *DISEASE prevalence, *LYMPHATIC diseases, *INFECTIOUS disease transmission

Abstract

The global decline in prevalence of lymphatic filariasis has been one of the major successes of the WHO's NTD programme. The recommended strategy of intensive, community-wide mass drug administration, aims to break localised transmission by either reducing the prevalence of microfilaria positive infections to below 1%, or antigen positive infections to below 2%. After the threshold is reached, and mass drug administration is stopped, geographically defined evaluation units must pass Transmission Assessment Surveys to demonstrate that transmission has been interrupted. In this study, we use an empirically parameterised stochastic transmission model to investigate the appropriateness of 1% microfilaria-positive prevalence as a stopping threshold, and statistically evaluate how well various monitoring prevalence-thresholds predict elimination or disease resurgence in the future by calculating their predictive value. Our results support the 1% filaremia prevalence target as appropriate stopping criteria. However, because at low prevalence-levels random events dominate the transmission dynamics, we find single prevalence measurements have poor predictive power for predicting resurgence, which suggests alternative criteria for restarting MDA may be beneficial. Author summary: The disease lymphatic filariasis is caused by parasitic worms that are spread by mosquito vectors, and is endemic across much of Sub-Saharan Africa, Asia, South and Central America, with over 893 million people in 49 countries considered to be at-risk. In 1997 the Global Programme to Eliminate Lymphatic Filariasis was established by the WHO with the aim of eliminating the disease as a public health problem by 2020 and supplies recommended guidelines for national programs to implement. The recommended control strategy is to annually administer deworming drugs to the population at-risk until stopping criteria based on disease prevalence are met, after which the disease prevalence is periodically measured to determine if transmission is ongoing. In our study, we simulate the disease transmission in a synthetic population, both during a mass drug administration program and after it is stopped, to statistically evaluate the effectiveness of the current guidelines. We focus on the ability of prevalence measurement post-MDA cessation to predict bounce-back or elimination by estimating the predictive value of antigenemia and filaremia surveys. [ABSTRACT FROM AUTHOR]

Published

2020

12. Epidemiology of dengue fever in Guatemala.

Author

Castillo Signor, Leticia del Carmen, Edwards, Thomas, Escobar, Luis E., Mencos, Yolanda, Matope, Agnes, Castaneda-Guzman, Mariana, Adams, Emily R., and Cuevas, Luis E.

Subjects

*DENGUE hemorrhagic fever, *DENGUE, *EPIDEMIOLOGY, *HERD immunity, *POISSON regression, *REGRESSION analysis

Abstract

Dengue fever occurs worldwide and about 1% of cases progress to severe haemorrhage and shock. Dengue is endemic in Guatemala and its surveillance system could document long term trends. We analysed 17 years of country-wide dengue surveillance data in Guatemala to describe epidemiological trends from 2000 to 2016.Data from the national dengue surveillance database were analysed to describe dengue serotype frequency, seasonality, and outbreaks. We used Poisson regression models to compare the number of cases each year with subsequent years and to estimate incidence ratios within serotype adjusted by age and gender. 91,554 samples were tested. Dengue was confirmed by RT-qPCR, culture or NS1-ELISA in 7097 (7.8%) cases and was IgM ELISA-positive in 19,290 (21.1%) cases. DENV1, DENV2, DENV3, and DENV4 were detected in 2218 (39.5%), 2580 (45.9%), 591 (10.5%), and 230 (4.1%) cases. DENV1 and DENV2 were the predominant serotypes, but all serotypes caused epidemics. The largest outbreak occurred in 2010 with 1080 DENV2 cases reported. The incidence was higher among adults during epidemic years, with significant increases in 2005, 2007, and 2013 DENV1 outbreaks, the 2010 DENV2 and 2003 DENV3 outbreaks. Adults had a lower incidence immediately after epidemics, which is likely linked to increased immunity. Author summary: Dengue is the most common mosquito-borne virus, and a major cause of fever, with an estimated 390 million infections annually. Guatemala, in Central America, has had ongoing dengue transmission since the 1990s. Its national surveillance system monitors outbreaks and seasonal trends of infections to inform public health responses. We have analysed 17 years of surveillance data collected from 2000 to 2016, to describe seasonal trends, outbreak years, and the fluctuating prevalence of the four dengue serotypes. Laboratory data from 91,554 individual serum samples were included, of which 7.8% were positive for dengue. All four dengue serotypes circulate in the country, with dengue 1 and 2 being the predominant serotypes. This is important, as it increases the likelihood of dengue infections being followed by a new infection with a different serotype, which can lead to severe dengue. We also report that adults in Guatemala have a lower likelihood of infection the year after an epidemic, which might be linked to an increased immunity in the population. [ABSTRACT FROM AUTHOR]

Published

2020

13. Impact of flavivirus vaccine-induced immunity on primary Zika virus antibody response in humans.

Author

Malafa, Stefan, Medits, Iris, Aberle, Judith H., Aberle, Stephan W., Haslwanter, Denise, Tsouchnikas, Georgios, Wölfel, Silke, Huber, Kristina L., Percivalle, Elena, Cherpillod, Pascal, Thaler, Melissa, Roßbacher, Lena, Kundi, Michael, Heinz, Franz X., and Stiasny, Karin

Subjects

*ZIKA virus, *ANTIBODY formation, *ZIKA virus infections, *FLAVIVIRAL diseases, *IMMUNITY, *VIRAL vaccines

Abstract

Background: Zika virus has recently spread to South- and Central America, causing congenital birth defects and neurological complications. Many people at risk are flavivirus pre-immune due to prior infections with other flaviviruses (e.g. dengue virus) or flavivirus vaccinations. Since pre-existing cross-reactive immunity can potentially modulate antibody responses to Zika virus infection and may affect the outcome of disease, we analyzed fine-specificity as well as virus-neutralizing and infection-enhancing activities of antibodies induced by a primary Zika virus infection in flavivirus-naïve as well as yellow fever- and/or tick-borne encephalitis-vaccinated individuals. Methodology: Antibodies in sera from convalescent Zika patients with and without vaccine-induced immunity were assessed by ELISA with respect to Zika virus-specificity and flavivirus cross-reactivity. Functional analyses included virus neutralization and infection-enhancement. The contribution of IgM and cross-reactive antibodies to these properties was determined by depletion experiments. Principal findings: Pre-existing flavivirus immunity had a strong influence on the antibody response in primary Zika virus infections, resulting in higher titers of broadly flavivirus cross-reactive antibodies and slightly lower levels of Zika virus-specific IgM. Antibody-dependent enhancement (ADE) of Zika virus was mediated by sub-neutralizing concentrations of specific IgG but not by cross-reactive antibodies. This effect was potently counteracted by the presence of neutralizing IgM. Broadly cross-reactive antibodies were able to both neutralize and enhance infection of dengue virus but not Zika virus, indicating a different exposure of conserved sequence elements in the two viruses. Conclusions: Our data point to an important role of flavivirus-specific IgM during the transient early stages of infection, by contributing substantially to neutralization and by counteracting ADE. In addition, our results highlight structural differences between strains of Zika and dengue viruses that are used for analyzing infection-enhancement by cross-reactive antibodies. These findings underscore the possible impact of specific antibody patterns on flavivirus disease and vaccination efficacy. Author summary: The explosive spread of Zika virus, a flavivirus, to South- and Central America underscores the potential threat of newly emerging arthropod-borne viruses. Zika virus infection can cause congenital birth defects and neurological complications. Many people at risk are flavivirus pre-immune because of prior infections with other flaviviruses (e.g. dengue virus, which co-circulates in Zika outbreak regions) or vaccinations (e.g. against yellow fever or tick-borne encephalitis) and have non-protective cross-reactive antibodies at the time of infection. Since pre-existing immunity can modulate the specificity and functional activity of antibody responses, and cross-reactive antibodies have been implicated in disease enhancement, we compared the specificities of serum samples from flavivirus-naïve and vaccinated individuals after primary Zika virus infections. Prior immunity led to a strong booster of cross-reactive antibodies that did not neutralize Zika virus. Importantly, we could also show that newly formed IgM antibodies contributed significantly to virus neutralization and prevented infection enhancement by other antibodies. Our data thus show how pre-existing cross-reactive immunities can alter the specificities and functional activities of antibody responses in flavivirus infections, which may affect flavivirus-induced disease and the efficacy of vaccinations. [ABSTRACT FROM AUTHOR]

Published

2020

14. Detecting space-time clusters of dengue fever in Panama after adjusting for vector surveillance data.

Author

Whiteman, Ari, Desjardins, Michael R., Eskildsen, Gilberto A., and Loaiza, Jose R.

Subjects

*VECTOR data, *DENGUE, *AEDES, *AEDES aegypti, *VECTOR spaces, *DENGUE hemorrhagic fever

Abstract

Long term surveillance of vectors and arboviruses is an integral aspect of disease prevention and control systems in countries affected by increasing risk. Yet, little effort has been made to adjust space-time risk estimation by integrating disease case counts with vector surveillance data, which may result in inaccurate risk projection when several vector species are present, and when little is known about their likely role in local transmission. Here, we integrate 13 years of dengue case surveillance and associated Aedes occurrence data across 462 localities in 63 districts to estimate the risk of infection in the Republic of Panama. Our exploratory space-time modelling approach detected the presence of five clusters, which varied by duration, relative risk, and spatial extent after incorporating vector species as covariates. The Ae. aegypti model contained the highest number of districts with more dengue cases than would be expected given baseline population levels, followed by the model accounting for both Ae. aegypti and Ae. albopictus. This implies that arbovirus case surveillance coupled with entomological surveillance can affect cluster detection and risk estimation, potentially improving efforts to understand outbreak dynamics at national scales. [ABSTRACT FROM AUTHOR]

Published

2019

15. Building research capacity through “Planning for Success”.

Author

Gómez, Ligia, Jaramillo, Andrés, Halpaap, Beatrice, Launois, Pascal, Cuervo, Luis Gabriel, and Saravia, Nancy Gore

Subjects

*LABORATORIES, *COLLEGE curriculum, *KOLB'S Experiential Learning theory, *SOCIAL science research

Abstract

The article offers information on strengthening health research capacity in low- and middle-income countries. Topics discussed include information on the challenges for sustainable capacity in planning, monitoring and evaluating health research projects; discussions on the Special Program for Research and Training in Tropical Diseases cosponsored by United Nations Development Programme; and the sustainable implementation of effective project planning and evaluation in health research.

Published

2019

16. Nicaragua’s human rights crisis requires international response.

Author

Huete-Pérez, Jorge A.

Subjects

*HUMAN rights, *SOCIAL theory, *PHYSICIANS, *RIGHT to health, *MEDICAL personnel, *HUMAN rights workers

Abstract

An editorial is presented which talks about repression, violence, and violations of human rights in Nicaragua and its effect on the country's healthcare system. The Nicaraguan government's imprisonment and killing of medical professionals for providing treatment for dissenters is noted. The dismissal of physicians has made the country's population vulnerable to infections from neglected tropical diseases (NTDs). It seeks a response from the global medical community against the violence.

Published

2019

17. A systematic review and meta-analysis of the prevalence of osteoarticular brucellosis.

Author

Adetunji, Shakirat A., Ramirez, Gilbert, Foster, Margaret J., and Arenas-Gamboa, Angela A. M.

Subjects

*META-analysis, *BRUCELLOSIS, *BONES, *BIBLIOGRAPHIC databases, *SEROLOGY

Abstract

Background: Infection of bones and joints remains one of the most commonly described complications of brucellosis in humans and is predominantly reported in all ages and sexes in high-risk regions, such as the Middle East, Asia, South and Central America, and Africa. We aimed to systematically review the literature and perform a meta-analysis to estimate the global prevalence of osteoarticular brucellosis. Methodology: Major bibliographic databases were searched using keywords and suitable combinations. All studies reporting the incidence and clinical manifestations of osteoarticular brucellosis in humans, and demonstrated by two or more diagnostic methods (bacteriological, molecular, serological, and/or radiographic) were included. Random effect model was used, and statistical significance was set at 0.5% Principal findings: A total of 56 studies met the inclusion criteria and were included in the systematic review and meta-analysis. There was an evidence of geographical variation in the prevalence of osteoarticular disease with estimates ranging from 27% in low-risk regions to 36% in high-risk regions. However, the difference was not significant. Thus, brucellosis patients have at least 27% chance of developing osteoarticular disease. Conclusions: The prevalence of OAB is not dependent on the endemicity of brucellosis in a particular region. Hence, further research should investigate the potential mechanisms of OAB, as well as the influence of age, gender, and other socioeconomic factor variations in its global prevalence, as this may provide insight into associated exposure risks and management of the disease. [ABSTRACT FROM AUTHOR]

Published

2019

18. Emergence of Madariaga virus as a cause of acute febrile illness in children, Haiti, 2015-2016.

Author

Lednicky, John A., White, Sarah K., Mavian, Carla N., El Badry, Maha A., Telisma, Taina, Salemi, Marco, OKech, Bernard A., Beau De Rochars, V. Madsen, and Jr.Morris, J. Glenn

Subjects

*EQUINE encephalomyelitis, *DENGUE viruses, *CHIKUNGUNYA, *FLAVIVIRUSES, *TOGAVIRUSES, *MEDICAL microbiology

Abstract

Madariaga virus (MADV), also known as South American eastern equine encephalitis virus, has been identified in animals and humans in South and Central America, but not previously in Hispaniola or the northern Caribbean. MADV was isolated from virus cultures of plasma from an 8-year-old child in a school cohort in the Gressier/Leogane region of Haiti, who was seen in April, 2015, with acute febrile illness (AFI). The virus was subsequently cultured from an additional seven AFI case patients from this same cohort in February, April, and May 2016. Symptoms most closely resembled those seen with confirmed dengue virus infection. Sequence data were available for four isolates: all were within the same clade, with phylogenetic and molecular clock data suggesting recent introduction of the virus into Haiti from Panama sometime in the period from October 2012-January 2015. Our data document the movement of MADV into Haiti, and raise questions about the potential for further spread in the Caribbean or North America. [ABSTRACT FROM AUTHOR]

Published

2019

19. A decade of vector control activities: Progress and limitations of Chagas disease prevention in a region of Guatemala with persistent Triatoma dimidiata infestation.

Author

Juarez, Jose G., Pennington, Pamela M., Bryan, Joe P., Klein, Robert E., Beard, Charles B., Berganza, Elsa, Rizzo, Nidia, and Cordon-Rosales, Celia

Subjects

*CHAGAS' disease, *VECTOR control, *TRIATOMA, *TRANSMISSION of protozoan diseases, *DISEASE vectors

Abstract

Introduction: Chagas disease, a neglected tropical disease that affects millions of Latin Americans, has been effectively controlled in Guatemala after multiple rounds of indoor residual insecticide spraying (IRS). However, a few foci remain with persistent Triatoma dimidiata infestation. One such area is the municipality of Comapa, Department of Jutiapa, in the southeastern region of Guatemala, where control interventions appear less effective. We carried out three cross sectional entomological and serological surveys in Comapa to evaluate a decade of vector control activities. Baseline serological (1999) and entomological (2001–2) surveys were followed by three rounds of insecticide applications (2003–2005) and intermittent focal spraying of infested houses, until approximately 2012. Household inspections to determine entomological indices and construction materials were conducted in 2001, 2007 and 2011. Seroprevalence surveys were conducted in school-age children in 1999, 2007 and 2015, and in women of child bearing age (15–44 years) only in 2015. After multiple rounds of indoor residual sprayings (IRS), the infestation index decreased significantly from 39% (2001–2) to 27% (2011). Household construction materials alone predicted <10% of infested houses. Chagas seroprevalence in Comapa declined in school-aged children by 10–fold, from 10% (1999) to 1% (2015). However, seroprevalence in women of child bearing age remains >10%. Conclusion: After a decade of vector control activities in Comapa, there is evidence of significantly reduced transmission. However, the continued risk for vector-borne and congenital transmission pose a threat to the 2022 Chagas disease elimination goal. Systematic integrated vector control and improved Chagas disease screening and treatment programs for congenital and vector-borne disease are needed to reach the elimination goal in regions with persistent vector infestation. [ABSTRACT FROM AUTHOR]

Published

2018

20. Uncovering vector, parasite, blood meal and microbiome patterns from mixed-DNA specimens of the Chagas disease vector Triatoma dimidiata.

Author

Orantes, Lucia C., Monroy, Carlota, Dorn, Patricia L., Stevens, Lori, Rizzo, Donna M., Morrissey, Leslie, Hanley, John P., Rodas, Antonieta Guadalupe, Richards, Bethany, Wallin, Kimberly F., and Helms Cahan, Sara

Subjects

*CHAGAS' disease, *PROTOZOA, *TRYPANOSOMA cruzi, *CONENOSES

Abstract

Chagas disease, considered a neglected disease by the World Health Organization, is caused by the protozoan parasite Trypanosoma cruzi, and transmitted by >140 triatomine species across the Americas. In Central America, the main vector is Triatoma dimidiata, an opportunistic blood meal feeder inhabiting both domestic and sylvatic ecotopes. Given the diversity of interacting biological agents involved in the epidemiology of Chagas disease, having simultaneous information on the dynamics of the parasite, vector, the gut microbiome of the vector, and the blood meal source would facilitate identifying key biotic factors associated with the risk of T. cruzi transmission. In this study, we developed a RADseq-based analysis pipeline to study mixed-species DNA extracted from T. dimidiata abdomens. To evaluate the efficacy of the method across spatial scales, we used a nested spatial sampling design that spanned from individual villages within Guatemala to major biogeographic regions of Central America. Information from each biotic source was distinguished with bioinformatics tools and used to evaluate the prevalence of T. cruzi infection and predominant Discrete Typing Units (DTUs) in the region, the population genetic structure of T. dimidiata, gut microbial diversity, and the blood meal history. An average of 3.25 million reads per specimen were obtained, with approximately 1% assigned to the parasite, 20% to the vector, 11% to bacteria, and 4% to putative blood meals. Using a total of 6,405 T. cruzi SNPs, we detected nine infected vectors harboring two distinct DTUs: TcI and a second unidentified strain, possibly TcIV. Vector specimens were sufficiently variable for population genomic analyses, with a total of 25,710 T. dimidiata SNPs across all samples that were sufficient to detect geographic genetic structure at both local and regional scales. We observed a diverse microbiotic community, with significantly higher bacterial species richness in infected T. dimidiata abdomens than those that were not infected. Unifrac analysis suggests a common assemblage of bacteria associated with infection, which co-occurs with the typical gut microbial community derived from the local environment. We identified vertebrate blood meals from five T. dimidiata abdomens, including chicken, dog, duck and human; however, additional detection methods would be necessary to confidently identify blood meal sources from most specimens. Overall, our study shows this method is effective for simultaneously generating genetic data on vectors and their associated parasites, along with ecological information on feeding patterns and microbial interactions that may be followed up with complementary approaches such as PCR-based parasite detection, 18S eukaryotic and 16S bacterial barcoding. [ABSTRACT FROM AUTHOR]

Published

2018

21. Differing epidemiological dynamics of Chikungunya virus in the Americas during the 2014-2015 epidemic.

Author

Tan, Yi, Pickett, Brett E., Shrivastava, Susmita, Gresh, Lionel, Balmaseda, Angel, Amedeo, Paolo, Hu, Lihui, Puri, Vinita, Fedorova, Nadia B., Halpin, Rebecca A., LaPointe, Matthew P., Cone, Marshall R., Heberlein-Larson, Lea, Kramer, Laura D., Ciota, Alexander T., Gordon, Aubree, Shabman, Reed S., Das, Suman R., and Harris, Eva

Subjects

*CHIKUNGUNYA virus, *EPIDEMIOLOGY, *MOLECULAR evolution, *VIRAL genomes, *GENOTYPES

Abstract

Chikungunya virus (CHIKV) has been detected sporadically since the 1950s and includes three distinct co-circulating genotypes. In late 2013, the Asian genotype of CHIKV was responsible for the Caribbean outbreak (CO) that rapidly became an epidemic throughout the Americas. There is a limited understanding of the molecular evolution of CHIKV in the Americas during this epidemic. We sequenced 185 complete CHIKV genomes collected mainly from Nicaragua in Central America and Florida in the United States during the 2014–2015 Caribbean/Americas epidemic. Our comprehensive phylogenetic analyses estimated the epidemic history of the Asian genotype and the recent Caribbean outbreak (CO) clade, revealed considerable genetic diversity within the CO clade, and described different epidemiological dynamics of CHIKV in the Americas. Specifically, we identified multiple introductions in both Nicaragua and Florida, with rapid local spread of viruses in Nicaragua but limited autochthonous transmission in Florida in the US. Our phylogenetic analysis also showed phylogeographic clustering of the CO clade. In addition, we identified the significant amino acid substitutions that were observed across the entire Asian genotype during its evolution and examined amino acid changes that were specific to the CO clade. Deep sequencing analysis identified specific minor variants present in clinical specimens below-consensus levels. Finally, we investigated the association between viral phylogeny and geographic/clinical metadata in Nicaragua. To date, this study represents the largest single collection of CHIKV complete genomes during the Caribbean/Americas epidemic and significantly expands our understanding of the emergence and evolution of CHIKV CO clade in the Americas. [ABSTRACT FROM AUTHOR]

Published

2018

22. Zika virus infection in Nicaraguan households.

Author

Burger-Calderon, Raquel, Gonzalez, Karla, Ojeda, Sergio, Zambrana, José Victor, Sanchez, Nery, Cerpas Cruz, Cristhiam, Suazo Laguna, Harold, Bustos, Fausto, Plazaola, Miguel, Lopez Mercado, Brenda, Elizondo, Douglas, Arguello, Sonia, Carey Monterrey, Jairo, Nuñez, Andrea, Coloma, Josefina, Waggoner, Jesse J., Gordon, Aubree, Kuan, Guillermina, Balmaseda, Angel, and Harris, Eva

Subjects

*ZIKA virus infections, *RNA viruses, *HUMAN abnormalities, *GUILLAIN-Barre syndrome, *PUBLIC health

Abstract

Zika virus (ZIKV) infection recently caused major epidemics in the Americas and is linked to congenital birth defects and Guillain-Barré Syndrome. A pilot study of ZIKV infection in Nicaraguan households was conducted from August 31 to October 21, 2016, in Managua, Nicaragua. We enrolled 33 laboratory-confirmed Zika index cases and their household members (109 contacts) and followed them on days 3–4, 6–7, 9–10, and 21, collecting serum/plasma, urine, and saliva specimens along with clinical, demographic, and socio-economic status information. Collected samples were processed by rRT-PCR to determine viral load (VL) and duration of detectable ZIKV RNA in human bodily fluids. At enrollment, 11 (10%) contacts were ZIKV rRT-PCR-positive and 23 (21%) were positive by IgM antibodies; 3 incident cases were detected during the study period. Twenty of 33 (61%) index households had contacts with ZIKV infection, with an average of 1.9 (range 1–6) positive contacts per household, and in 60% of these households, ≥50% of the members were positive for ZIKV infection. Analysis of clinical information allowed us to estimate the symptomatic to asymptomatic (S:A) ratio of 14:23 (1:1.6) among the contacts, finding 62% of the infections to be asymptomatic. The maximum number of days during which ZIKV RNA was detected was 7 days post-symptom onset in saliva and serum/plasma and 22 days in urine. Overall, VL levels in serum/plasma, saliva, and urine specimens were comparable, with means of 5.6, 5.3 and 4.5 log10 copies/ml respectively, with serum attaining the highest VL peak at 8.1 log10 copies/ml. Detecting ZIKV RNA in saliva over a similar time-period and level as in serum/plasma indicates that saliva could potentially serve as a more accessible diagnostic sample. Finding the majority of infections to be asymptomatic emphasizes the importance of silent ZIKV transmission and helps inform public health interventions in the region and globally. [ABSTRACT FROM AUTHOR]

Published

2018

23. Aminopeptidase secreted by Chromobacterium sp. Panama inhibits dengue virus infection by degrading the E protein.

Author

Saraiva, Raúl G., Fang, Jingru, Kang, Seokyoung, Angleró-Rodríguez, Yesseinia I., Dong, Yuemei, and Dimopoulos, George

Subjects

*AMINOPEPTIDASES, *CHROMOBACTERIUM, *DENGUE viruses, *AEDES aegypti, *BIOLOGICAL assay

Abstract

Dengue virus (DENV) is the most prevalent and burdensome arbovirus transmitted by Aedes mosquitoes, against which there is only a limited licensed vaccine and no approved drug treatment. A Chromobacterium species, C. sp. Panama, isolated from the midgut of A. aegypti is able to inhibit DENV replication within the mosquito and in vitro. Here we show that C. sp. Panama mediates its anti-DENV activity through secreted factors that are proteinous in nature. The inhibitory effect occurs prior to virus attachment to cells, and is attributed to a factor that destabilizes the virion by promoting the degradation of the viral envelope protein. Bioassay-guided fractionation, coupled with mass spectrometry, allowed for the identification of a C. sp. Panama-secreted neutral protease and an aminopeptidase that are co-expressed and appear to act synergistically to degrade the viral envelope (E) protein and thus prevent viral attachment and subsequent infection of cells. This is the first study characterizing the anti-DENV activity of a common soil and mosquito-associated bacterium, thereby contributing towards understanding how such bacteria may limit disease transmission, and providing new tools for dengue prevention and therapeutics. [ABSTRACT FROM AUTHOR]

Published

2018

24. The diversity of the Chagas parasite, Trypanosoma cruzi, infecting the main Central American vector, Triatoma dimidiata, from Mexico to Colombia.

Author

Dorn, Patricia L., McClure, Annie G., Gallaspy, Meghan D., Woods, Adrienne S., Waleckx, Etienne, Monroy, Maria Carlota, and Stevens, Lori

Subjects

*TRYPANOSOMA cruzi, *CHAGAS' disease treatment, *TRIATOMA, *DIAGNOSIS of Chagas' disease, *PHYSIOLOGY, *BEHAVIOR

Abstract

Little is known about the strains of Trypanosoma cruzi circulating in Central America and specifically in the most important vector in this region, Triatoma dimidiata. Approximately six million people are infected with T. cruzi, the causative agent of Chagas disease, which has the greatest negative economic impact and is responsible for ~12,000 deaths annually in Latin America. By international consensus, strains of T. cruzi are divided into six monophyletic clades called discrete typing units (DTUs TcI-VI) and a seventh DTU first identified in bats called TcBat. TcI shows the greatest geographic range and diversity. Identifying strains present and diversity within these strains is important as different strains and their genotypes may cause different pathologies and may circulate in different localities and transmission cycles, thus impacting control efforts, treatment and vaccine development. To determine parasite strains present in T. dimidiata across its geographic range from Mexico to Colombia, we isolated abdominal DNA from T. dimidiata and determined which specimens were infected with T. cruzi by PCR. Strains from infected insects were determined by comparing the sequence of the 18S rDNA and the spliced-leader intergenic region to typed strains in GenBank. Two DTUs were found: 94% of infected T. dimidiata contained TcI and 6% contained TcIV. TcI exhibited high genetic diversity. Geographic structure of TcI haplotypes was evident by Principal Component and Median-Joining Network analyses as well as a significant result in the Mantel test, indicating isolation by distance. There was little evidence of association with TcI haplotypes and host/vector or ecotope. This study provides new information about the strains circulating in the most important Chagas vector in Central America and reveals considerable variability within TcI as well as geographic structuring at this large geographic scale. The lack of association with particular vectors/hosts or ecotopes suggests the parasites are moving among vectors/hosts and ecotopes therefore a comprehensive approach, such as the Ecohealth approach that makes houses refractory to the vectors will be needed to successfully halt transmission of Chagas disease. [ABSTRACT FROM AUTHOR]

Published

2017

25. Cross-reactivity, antivenomics, and neutralization of toxic activities of Lachesis venoms by polyspecific and monospecific antivenoms.

Author

Madrigal, Marvin, Pla, Davinia, Sanz, Libia, Barboza, Elexandra, Arroyo-Portilla, Cynthia, Corrêa-Netto, Carlos, Gutiérrez, José María, Alape-Girón, Alberto, Flores-Díaz, Marietta, and Calvete, Juan J.

Subjects

*ANTIVENINS, *LACHESIS, *BOTHROPS, *CROTALUS, BLOOD coagulants

Abstract

Background: Bothrops, Crotalus and Lachesis represent the most medically relevant genera of pitvipers in Central and South America. Similarity in venom phenotype and physiopathological profile of envenomings caused by the four nominal Lachesis species led us to hypothesize that an antivenom prepared against venom from any of them may exhibit paraspecificity against all the other congeneric taxa. Methods: To assess this hypothesis, in this work we have applied antivenomics and immunochemical methods to investigate the immunoreactivity of three monovalent antivenoms and two polyvalent antivenoms towards the venoms from different geographic populations of three different Lachesis species. The ability of the antivenoms to neutralize the proteolytic, hemorrhagic, coagulant, and lethal activities of the seven Lachesis venoms was also investigated. Results: A conspicuous pattern of immunorecognition and cross-neutralization for all effects was evident by the polyspecific antivenoms, indicating large immunoreactive epitope conservation across the genus during more than 10 million years since the Central and South American bushmasters diverged. Conclusions: Despite the broad geographic distribution of Lachesis, antivenoms against venoms of different species are effective in the neutralization of congeneric venoms not used in the immunization mixture, indicating that they can be used equivalently for the clinical treatment of any lachesic envenoming. General significance: This study demonstrates that antivenoms raised against venom of different Lachesis species are indistinctly effective in the neutralization of congeneric venoms not used in the immunization mixture, indicating that antivenoms against conspecific venoms may be used equivalently for the clinical treatment of envenomings caused by any bushmaster species. [ABSTRACT FROM AUTHOR]

Published

2017

26. Incidence and mortality due to snakebite in the Americas.

Author

Chippaux, Jean-Philippe

Subjects

*SNAKEBITES, *EPIDEMIOLOGY, *TROPICAL medicine, *ANIMAL population density

Abstract

Background: Better knowledge of the epidemiological characteristics of snakebites could help to take measures to improve their management. The incidence and mortality of snakebites in the Americas are most often estimated from medical and scientific literature, which generally lack precision and representativeness. Methodology/Principal findings: Authors used the notifications of snakebites treated in health centers collected by the Ministries of Health of the American countries to estimate their incidence and mortality. Data were obtained from official reports available on-line at government sites, including those of the Ministry of Health in each country and was sustained by recent literature obtained from PubMed. The average annual incidence is about 57,500 snake bites (6.2 per 100,000 population) and mortality is close to 370 deaths (0.04 per 100,000 population), that is, between one third and half of the previous estimates. The incidence of snakebites is influenced by the abundance of snakes, which is related to (i) climate and altitude, (ii) specific preferences of the snake for environments suitable for their development, and (iii) human population density. Recent literature allowed to notice that the severity of the bites depends mainly on (i) the snake responsible for the bite (species and size) and (ii) accessibility of health care, including availability of antivenoms. Conclusions/Significances: The main limitation of this study could be the reliability and accuracy of the notifications by national health services. However, the data seemed consistent considering the similarity of the incidences on each side of national boundaries while the sources are distinct. However, snakebite incidence could be underestimated due to the use of traditional medicine by the patients who escaped the reporting of cases. However, gathered data corresponded to the actual use of the health facilities, and therefore to the actual demand for antivenoms, which should make it possible to improve their management. [ABSTRACT FROM AUTHOR]

Published

2017

27. Unusual pattern of chikungunya virus epidemic in the Americas, the Panamanian experience.

Author

Carrera, Jean-Paul, Díaz, Yamilka, Denis, Bernardino, Barahona De Mosca, Itza, Rodriguez, Dennys, Cedeño, Israel, Arauz, Dimelza, González, Publio, Cerezo, Lizbeth, Moreno, Lourdes, García, Lourdes, Sáenz, Lisseth E., Atencio, María Aneth, Rojas-Fermin, Eddy, Vizcaino, Fernando, Perez, Nicolas, Moreno, Brechla, López-Vergès, Sandra, Valderrama, Anayansi, and Armién, Blas

Subjects

*CHIKUNGUNYA, *EPIDEMICS, *ANTIBODY specificity, *ALPHAVIRUSES, *INFECTIOUS disease transmission

Abstract

Background: Chikungunya virus (CHIKV) typically causes explosive epidemics of fever, rash and polyarthralgia after its introduction into naïve populations. Since its introduction in Panama in May of 2014, few autochthonous cases have been reported; most of them were found within limited outbreaks in Panama City in 2014 and Puerto Obaldia town, near the Caribbean border with Colombia in 2015. In order to confirm that Panama had few CHIKV cases compared with neighboring countries, we perform an epidemiological analysis of chikungunya cases reported from May 2014 to July 2015. Moreover, to understand this paucity of confirmed CHIKV cases, a vectorial analysis in the counties where these cases were reported was performed. Methods: Chikungunya cases were identified at medical centers and notified to health authorities. Sera samples were analyzed at Gorgas Memorial Institute for viral RNA and CHIKV-specific antibody detection. Results: A total of 413 suspected cases of CHIKV infections were reported, with incidence rates of 0.5 and 0.7 per 100,000 inhabitants in 2014 and 2015, respectively. During this period, 38.6% of CHIKV cases were autochthonous with rash and polyarthralgia as predominant symptoms. CHIKV and DENV incidence ratios were 1:306 and 1:34, respectively. A phylogenetic analysis of E1/E2 genomic segment indicates that the outbreak strains belong to the Asian genotype and cluster together with CHIKV isolates from other American countries during the same period. Statistical analysis of the National Vector Control program at the district level shows low and medium vector infestation level for most of the counties with CHIKV cases. This index was lower than for neighboring countries. Conclusions: Previous training of clinical, laboratory and vector workers allowed a good caption and detection of the chikungunya cases and fast intervention. It is possible that low/medium vector infestation level could explain in part the paucity of chikungunya infections in Panama. [ABSTRACT FROM AUTHOR]

Published

2017

28. First Identification and Description of Rickettsioses and Q Fever as Causes of Acute Febrile Illness in Nicaragua.

Author

Reller, Megan E., Chikeka, Ijeuru, Miles, Jeremy J., Dumler, J. Stephen, Woods, Christopher W., Mayorga, Orlando, and Matute, Armando J.

Subjects

*RICKETTSIAL diseases, *Q fever, *EPIDEMIOLOGY, *COMMUNICABLE disease treatment, *ENZYME-linked immunosorbent assay, *THERAPEUTICS

Abstract

Background: Rickettsial infections and Q fever present similarly to other acute febrile illnesses, but are infrequently diagnosed because of limited diagnostic tools. Despite sporadic reports, rickettsial infections and Q fever have not been prospectively studied in Central America. Methodology/Principal Findings: We enrolled consecutive patients presenting with undifferentiated fever in western Nicaragua and collected epidemiologic and clinical data and acute and convalescent sera. We used ELISA for screening and paired sera to confirm acute (≥4-fold rise in titer) spotted fever and typhus group rickettsial infections and Q fever as well as past (stable titer) infections. Characteristics associated with both acute and past infection were assessed. Conclusions/Significance: We enrolled 825 patients and identified acute rickettsial infections and acute Q fever in 0.9% and 1.3%, respectively. Clinical features were non-specific and neither rickettsial infections nor Q fever were considered or treated. Further study is warranted to define the burden of these infections in Central America. [ABSTRACT FROM AUTHOR]

Published

2016

29. Ascaris from Humans and Pigs Appear to Be Reproductively Isolated Species.

Author

Søe, Martin Jensen, Kapel, Christian M. O., and Nejsum, Peter

Subjects

*BIOMARKERS, *ASCARIS, *MITOCHONDRIAL pathology, *RIBOSOMAL RNA, *NUCLEOTIDE sequencing, *SCHISTOSOMA, SWINE anatomy

Abstract

The article presents studies which examined highly variable nuclear markers in worm isolates of human and pig origin from many different geographic locations. The studies compared Ascaris isolates from pigs and humans and have identified close similarities in mitochondrial and single nuclear markers and 18S rRNA. The capability of next-generation sequencing to offer whole genome sequences of multiple individuals as exemplified for Trichinella and Schistosoma worms is tackled.

Published

2016

30. A Knowledge, Attitudes and Practices Survey Conducted Three Years after Halting Ivermectin Mass Treatment for Onchocerciasis in Guatemala.

Author

Jr.Richards, Frank O., Klein, Robert E., de León, Oscar, Mendizábal-Cabrera, Renata, Morales, Alba Lucía, Cama, Vitaliano, Crovella, Carol G., Díaz Espinoza, Carlos E., Morales, Zoraida, Sauerbrey, Mauricio, and Rizzo, Nidia

Subjects

*IVERMECTIN, *ONCHOCERCIASIS, *ONCHOCERCA volvulus, *RESIDENTS, *THEORY of knowledge, *ATTITUDE (Psychology)

Abstract

Background: Mass drug administration (MDA) with ivermectin for onchocerciasis was provided in Guatemala’s Central Endemic Zone (CEZ) over a 24 year period (1988–2011). Elimination of Onchocerca volvulus transmission was declared in 2015 after a three year post MDA surveillance period (2012–2014) showed no evidence of recrudescence. The purpose of the present study was to evaluate the knowledge, attitudes and practices (KAP) towards onchocerciasis and ivermectin among residents in the post endemic CEZ. A major interest in this study was to determine what community residents thought about the end of the ivermectin MDA program. Methodology/Principal Findings: A total of 148 interviews were conducted in November 2014 in four formerly hyperendemic communities using a standard questionnaire on smart phones. The majority (69%) of respondents knew that the MDA program had ended because the disease was no longer present in their communities, but a slight majority (53%) was personally unsure that onchocerciasis had really been eliminated. Sixty-three percent wanted to continue to receive ivermectin because of this uncertainty, or because ivermectin is effective against intestinal worms. Eighty-nine percent of respondents said that they would seek medical attention immediately if a family member had symptoms of onchocerciasis (especially the presence of a nodule), which is a finding very important for ongoing surveillance. Conclusions/Significance: Many respondents wanted to continue receive ivermectin and more than half did not believe onchocerciasis had been eliminated. The ministry of health outreach services should be prepared to address ongoing concerns about onchocerciasis in the post endemic CEZ. [ABSTRACT FROM AUTHOR]

Published

2016

31. Seroprevalence of Anti-Chikungunya Virus Antibodies in Children and Adults in Managua, Nicaragua, After the First Chikungunya Epidemic, 2014-2015.

Author

Kuan, Guillermina, Ramirez, Stephania, Gresh, Lionel, Ojeda, Sergio, Melendez, Marlon, Sanchez, Nery, Collado, Damaris, Garcia, Nadezna, Mercado, Juan Carlos, Gordon, Aubree, Balmaseda, Angel, and Harris, Eva

Subjects

*CHIKUNGUNYA, *SEROPREVALENCE, *ENZYME-linked immunosorbent assay, *IMMUNOGLOBULINS, *PUBLIC health

Abstract

Chikungunya is a viral disease transmitted by Aedes aegypti and Ae. albopictus mosquitoes. In late 2013, chikungunya virus (CHIKV) was introduced into the Caribbean island of St. Martin. Since then, approximately 2 million chikungunya cases have been reported by the Pan American Health Organization, and most countries in the Americas report autochthonous transmission of CHIKV. In Nicaragua, the first imported case was described in July 2014 and the first autochthonous case in September 2014. Here, we conducted two studies to analyze the seroprevalence of anti-CHIKV antibodies after the first chikungunya epidemic in a community-based cohort study (ages 2–14 years) and in a cross-sectional survey of persons aged ≥15 years in the same area of Managua, Nicaragua. Routine annual serum samples collected from 3,362 cohort participants in March/April 2014 and 2015, and 848 age-stratified samples collected from persons ≥15 years old at the end of May-beginning of June 2015 were used to estimate the seroprevalence of anti-CHIKV antibodies after the first epidemic (October 2014 to February 2015 in the study population). Using an Inhibition ELISA assay that measures total anti-CHIKV antibodies, the seroprevalence was significantly higher in those aged ≥15 (13.1% (95%CI: 10.9, 15.5)) than in the pediatric population (6.1% (95%CI: 5.3, 6.9)). The proportion of inapparent infections was 58.3% (95%CI: 51.5, 65.1) in children and 64.9% (95%CI: 55.2, 73.7) in the ≥15 study population. We identified age, water availability, household size, and socioeconomic status as factors associated with the presence of anti-CHIKV antibodies. Overall, this is the first report of CHIKV seropositivity in continental Latin America and provides useful information for public health authorities in the region. [ABSTRACT FROM AUTHOR]

Published

2016

32. Epidemic and Non-Epidemic Hot Spots of Malaria Transmission Occur in Indigenous Comarcas of Panama.

Author

Lainhart, William, Dutari, Larissa C., Rovira, Jose R., Sucupira, Izis M. C., Póvoa, Marinete M., Conn, Jan E., and Loaiza, Jose R.

Subjects

*COMARCAS, *MALARIA prevention, *INFECTIOUS disease transmission, *EPIDEMIOLOGY, *GEOLOGIC hot spots

Abstract

From 2002–2005, Panama experienced a malaria epidemic that has been associated with El Niño Southern Oscillation weather patterns, decreased funding for malaria control, and landscape modification. Case numbers quickly decreased afterward, and Panama is now in the pre-elimination stage of malaria eradication. To achieve this new goal, the characterization of epidemiological risk factors, foci of transmission, and important anopheline vectors is needed. Of the 24,681 reported cases in these analyses (2000–2014), ~62% occurred in epidemic years and ~44% in indigenous comarcas (5.9% of Panama’s population). Sub-analyses comparing overall numbers of cases in epidemic and non-epidemic years identified females, comarcas and some 5-year age categories as those disproportionately affected by malaria during epidemic years. Annual parasites indices (APIs; number of cases per 1,000 persons) for Plasmodium vivax were higher in comarcas compared to provinces for all study years, though P. falciparum APIs were only higher in comarcas during epidemic years. Interestingly, two comarcas report increasing numbers of cases annually, despite national annual decreases. Inclusion of these comarcas within identified foci of malaria transmission confirmed their roles in continued transmission. Comparison of species distribution models for two important anophelines with Plasmodium case distribution suggest An. albimanus is the primary malaria vector in Panama, confirmed by identification of nine P. vivax-infected specimen pools. Future malaria eradication strategies in Panama should focus on indigenous comarcas and include both active surveillance for cases and comprehensive anopheline vector surveys. [ABSTRACT FROM AUTHOR]

Published

2016

33. Spatial-Temporal Distribution of Hantavirus Rodent-Borne Infection by Oligoryzomys fulvescens in the Agua Buena Region - Panama.

Author

Armién, Blas, Ortiz, Paulo Lazaro, Gonzalez, Publio, Cumbrera, Alberto, Rivero, Alina, Avila, Mario, Armién, Aníbal G., Koster, Frederick, and Glass, Gregory

Subjects

*ETIOLOGY of diseases, *HANTAVIRUS diseases, *HANTAVIRUSES, *HANTAVIRUS pulmonary syndrome, *OLIGORYZOMYS flavescens, *PHYSIOLOGY, *DIAGNOSIS, *INFECTIOUS disease transmission

Abstract

Background: Hotspot detection and characterization has played an increasing role in understanding the maintenance and transmission of zoonotic pathogens. Identifying the specific environmental factors (or their correlates) that influence reservoir host abundance help increase understanding of how pathogens are maintained in natural systems and are crucial to identifying disease risk. However, most recent studies are performed at macro-scale and describe broad temporal patterns of population abundances. Few have been conducted at a microscale over short time periods that better capture the dynamical patterns of key populations. These finer resolution studies may better define the likelihood of local pathogen persistence. This study characterizes the landscape distribution and spatio-temporal dynamics of Oligoryzomys fulvescens (O. fulvescens), an important mammalian reservoir in Central America. Methods: Information collected in a longitudinal study of rodent populations in the community of Agua Buena in Tonosí, Panama, between April 2006 and December 2009 was analyzed using non-spatial analyses (box plots) and explicit spatial statistical tests (correlograms, SADIE and LISA). A 90 node grid was built (raster format) to design a base map. The area between the nodes was 0.09 km2 and the total study area was 6.43 km2 (2.39 x 2.69 km). The temporal assessment dataset was divided into four periods for each year studied: the dry season, rainy season, and two months-long transitions between seasons (the months of April and December). Results: There were heterogeneous patterns in the population densities and degrees of dispersion of O. fulvescens that varied across seasons and among years. The species typically was locally absent during the late transitional months of the season, and re-established locally in subsequent years. These populations re-occurred in the same area during the first three years but subsequently re-established further south in the final year of the study. Spatial autocorrelation analyses indicated local populations encompassed approximately 300–600 m. The borders between suitable and unsuitable habitats were sharply demarcated over short distances. Conclusion: Oligoryzomys fulvescens showed a well-defined spatial pattern that evolved over time, and led to a pattern of changing aggregation. Thus, hot spots of abundance showed a general shifting pattern that helps explain the intermittent risk from pathogens transmitted by this species. This variation was associated with seasonality, as well as anthropogenic pressures that occurred with agricultural activities. These factors help define the characteristics of the occurrence, timing, intensity and duration of synanthropic populations affected by human populations and, consequently, possible exposure that local human populations experience. [ABSTRACT FROM AUTHOR]

Published

2016

34. Isolation and genetic characterization of a relapsing fever spirochete isolated from Ornithodoros puertoricensis collected in central Panama

Author

Brittany A. Armstrong, Sarah M. Gunter, Sergio E. Bermúdez, Aparna Krishnavajhala, Job E. Lopez, Alexander R. Kneubehl, Lillian Domínguez, Adam J. Replogle, and Jeannine M. Petersen

Subjects

Bacterial Diseases, relapsing fever, Physiology, RC955-962, Artificial Gene Amplification and Extension, Disease Vectors, Pathology and Laboratory Medicine, Polymerase Chain Reaction, Geographical locations, Medical Conditions, Ticks, Arctic medicine. Tropical medicine, RNA, Ribosomal, 16S, Medicine and Health Sciences, Nomenclature, Phylogeny, Panama, biology, Spirochetes, Transmission (medicine), Relapsing Fever, Eukaryota, Ornithodoros puertoricensis, Tick vector, Isolation (microbiology), Bacterial Pathogens, Body Fluids, Infectious Diseases, Blood, Medical Microbiology, Tick-Borne Diseases, Public aspects of medicine, RA1-1270, Pathogens, Anatomy, Research Article, Neglected Tropical Diseases, DNA, Bacterial, Arthropoda, Zoology, Rodentia, Research and Analysis Methods, Microbiology, Borrelia, parasitic diseases, Arachnida, medicine, Animals, Molecular Biology Techniques, Ornithodoros, Microbial Pathogens, Molecular Biology, Bacteria, Ixodes, Public Health, Environmental and Occupational Health, Organisms, Biology and Life Sciences, Central America, Feeding Behavior, Sequence Analysis, DNA, medicine.disease, biology.organism_classification, Tropical Diseases, Invertebrates, Borrelia Infection, Tick Infestations, Species Interactions, North America, People and places

Abstract

Tick-borne relapsing fever (TBRF) spirochetes are likely an overlooked cause of disease in Latin America. In Panama, the pathogens were first reported to cause human disease in the early 1900s. Recent collections of Ornithodoros puertoricensis from human dwellings in Panama prompted our interest to determine whether spirochetes still circulate in the country. Ornithodoros puertoricensis ticks were collected at field sites around the City of Panama. In the laboratory, the ticks were determined to be infected with TBRF spirochetes by transmission to mice, and we report the laboratory isolation and genetic characterization of a species of TBRF spirochete from Panama. Since this was the first isolation of a species of TBRF spirochete from Central America, we propose to designate the bacteria as Borrelia puertoricensis sp. nov. This is consistent with TBRF spirochete species nomenclature from North America that are designated after their tick vector. These findings warrant further investigations to assess the threat B. puertoricensis sp. nov. may impose on human health., Author summary Tick-borne relapsing fever (TBRF) is an often misdiagnosed neglected tropical disease primarily impacting those in resource limited settings. Most species are transmitted by argasid ticks, but ixodid ticks and the human body louse are also competent vectors. Infection of TBRF spirochetes is challenging to diagnose because argasid ticks are rapid feeders and rarely spotted on the patient. Moreover, given the nonspecific manifestation of disease and poor clinical awareness, TBRF is overlooked. In Central America, TBRF was studied in the Canal Zone of Panama until the 1930s. Over the last 10 years argasid ticks have been reported to colonize human dwellings in the country but it has remained vague if the disease persists. In this study, we demonstrate the transmission of TBRF spirochetes from field collected ticks and the laboratory isolation and genetic characterization of the species. These findings suggest that TBRF spirochetes continue to circulate in Panama and should prompt health care providers to consider this disease when patients present with a fever of unknown origin. Furthermore, with the laboratory isolation of this bacteria, molecular diagnostic tools can be developed to improve epidemiological studies of TBRF spirochetes in Central America.

Published

2021

35. Prospects for Malaria Elimination in Mesoamerica and Hispaniola.

Author

Herrera, Sócrates, Ochoa-Orozco, Sergio Andrés, González, Iveth J., Peinado, Lucrecia, Quiñones, Martha L., and Arévalo-Herrera, Myriam

Subjects

*MALARIA, *MALARIA prevention

Abstract

Malaria remains endemic in 21 countries of the American continent with an estimated 427,000 cases per year. Approximately 10% of these occur in the Mesoamerican and Caribbean regions. During the last decade, malaria transmission in Mesoamerica showed a decrease of ~85%; whereas, in the Caribbean region, Hispaniola (comprising the Dominican Republic [DR] and Haiti) presented an overall rise in malaria transmission, primarily due to a steady increase in Haiti, while DR experienced a significant transmission decrease in this period. The significant malaria reduction observed recently in the region prompted the launch of an initiative for Malaria Elimination in Mesoamerica and Hispaniola (EMMIE) with the active involvement of the National Malaria Control Programs (NMCPs) of nine countries, the Regional Coordination Mechanism (RCM) for Mesoamerica, and the Council of Health Ministries of Central America and Dominican Republic (COMISCA). The EMMIE initiative is supported by the Global Fund for Aids, Tuberculosis and Malaria (GFATM) with active participation of multiple partners including Ministries of Health, bilateral and multilateral agencies, as well as research centers. EMMIE's main goal is to achieve elimination of malaria transmission in the region by 2020. Here we discuss the prospects, challenges, and research needs associated with this initiative that, if successful, could represent a paradigm for other malaria-affected regions. [ABSTRACT FROM AUTHOR]

Published

2015

36. New features on the survival of human-infective Trypanosoma rangeli in a murine model: Parasite accumulation is observed in lymphoid organs

Author

Alessandra A. Guarneri, Patrícia Massara Martinelli, Juliana Alves-Silva, Andréa Teixeira-Carvalho, Luciana de Lima Ferreira, and Fernanda Fortes de Araújo

Subjects

0301 basic medicine, Trypanosoma rangeli, Physiology, RC955-962, Skin infection, Mice, 0302 clinical medicine, Medical Conditions, Arctic medicine. Tropical medicine, Immune Physiology, Medicine and Health Sciences, Mesenteric lymph nodes, Parasite hosting, Immune Response, Skin, Protozoans, biology, Eukaryota, Body Fluids, Lymphatic system, medicine.anatomical_structure, Infectious Diseases, Blood, Rhodnius, Public aspects of medicine, RA1-1270, Anatomy, Research Article, Skin Infections, Trypanosoma, 030231 tropical medicine, Immunology, Spleen, Dermatology, Skin Diseases, Microbiology, Host-Parasite Interactions, Lymphatic System, 03 medical and health sciences, Signs and Symptoms, Protozoan infection, Sepsis, medicine, Parasitic Diseases, Animals, Humans, Chagas Disease, Inflammation, Protozoan Infections, Public Health, Environmental and Occupational Health, Organisms, Biology and Life Sciences, Insect Bites and Stings, Central America, South America, biology.organism_classification, medicine.disease, Parasitic Protozoans, Insect Vectors, Disease Models, Animal, 030104 developmental biology, Lymph Nodes, Clinical Medicine

Abstract

Trypanosoma rangeli is a non-pathogenic protozoan parasite that infects mammals, including humans, in Chagas disease-endemic areas of South and Central America. The parasite is transmitted to a mammalian host when an infected triatomine injects metacyclic trypomastigotes into the host′s skin during a bloodmeal. Infected mammals behave as parasite reservoirs for several months and despite intensive research, some major aspects of T. rangeli-vertebrate interactions are still poorly understood. In particular, many questions still remain unanswered, e.g. parasite survival and development inside vertebrates, as no parasite multiplication sites have yet been identified. The present study used an insect bite transmission strategy to investigate whether the vector inoculation spot in the skin behave as a parasite-replication site. Histological data from the skin identified extracellular parasites in the dermis and hypodermis of infected mice in the first 24 hours post-infection, as well as the presence of inflammatory infiltrates in a period of up to 7 days. However, qPCR analyses demonstrated that T. rangeli is eliminated from the skin after 7 days of infection despite being still consistently found on circulating blood and secondary lymphoid tissues for up to 30 days post-infection. Interestingly, significant numbers of parasites were found in the spleen and mesenteric lymph nodes of infected mice during different periods of infection and steady basal numbers of flagellates are maintained in the host′s bloodstream, which might behave as a transmission source to insect vectors. The presence of parasites in the spleen was confirmed by fluorescent photomicrography of free and cell-associated T. rangeli forms. Altogether our results suggest that this organ could possibly behave as a T. rangeli maintenance hotspot in vertebrates., Author summary Trypanosoma rangeli development inside vertebrates is a highly controversial field of study, since there is no evidence of parasite multiplication in host tissues. One of the difficulties that turns it even more complex, it’s the challenge to maintain T. rangeli infectivity, since its maintenance in culture decreases parasite’s ability to infect its hosts. Our group developed a methodology in which parasites are kept in frequent passages through triatomines and mice, assuring its infectivity and allowing the development of studies more similar to natural transmission. In this study we used qPCR, flow cytometry and histological techniques to evaluate parasite persistence in different tissues and organs of mice infected by the bite of infected bugs, mimicking a natural infection. We found that after one week of infection, parasites as well as inflammatory infiltrates disappear from the inoculation site at the host´s skin. Evaluation of infected mice for a period of 30 days demonstrated that a stable basal amount of parasites was detected in circulating blood, although an increased amount of T. rangeli DNA was found in mesenteric lymph nodes and spleen. In spleen, through marking the parasite with a monoclonal antibody we confirmed the presence of live parasites which were seen in apparent close association with cells and also inside them as apparently amastigote forms, indicating that the parasite is preserved and possibly replicates in these tissues. Our study provides new insights into the interaction of T. rangeli with its vertebrate hosts.

Published

2020

37. Phylogeny and Niche Conservatism in North and Central American Triatomine Bugs (Hemiptera: Reduviidae: Triatominae), Vectors of Chagas' Disease.

Author

Ibarra-Cerdeña, Carlos N., Zaldívar-Riverón, Alejandro, Peterson, A. Townsend, Sánchez-Cordero, Víctor, and Ramsey, Janine M.

Subjects

*CHAGAS' disease, *CONENOSES, *ASSASSIN bugs, *TRYPANOSOMA cruzi, *NUMBERS of species, *HEMIPTERA

Abstract

The niche conservatism hypothesis states that related species diverge in niche characteristics at lower rates than expected, given their lineage divergence. Here we analyze whether niche conservatism is a common pattern among vector species (Hemiptera: Reduviidae: Triatominae) of Trypanosoma cruzi that inhabit North and Central America, a highly heterogeneous landmass in terms of environmental gradients. Mitochondrial and nuclear loci were used in a multi-locus phylogenetic framework to reconstruct phylogenetic relationships among species and estimate time of divergence of selected clades to draw biogeographic inferences. Then, we estimated similarity between the ecological niche of sister species and tested the niche conservatism hypothesis using our best estimate of phylogeny. Triatoma is not monophyletic. A primary clade with all North and Central American (NCA) triatomine species from the genera Triatoma, Dipetalogaster, and Panstrongylus, was consistently recovered. Nearctic species within the NCA clade (T. p. protracta, T. r. rubida) diverged during the Pliocene, whereas the Neotropical species (T. phyllosoma, T. longipennis, T. dimidiata complex) are estimated to have diverged more recently, during the Pleistocene. The hypothesis of niche conservatism could not be rejected for any of six sister species pairs. Niche similarity between sister species best fits a retention model. While this framework is used here to infer niche evolution, it has a direct impact on spatial vector dynamics driven by human population movements, expansion of transportation networks and climate change scenarios. Author Summary: Knowledge regarding the evolutionary history of insect vectors of pathogens is essential to design precise and appropriately integrated control strategies, since species' dispersal and invasive capacity are key components to prevent human-vector interaction. Given several well-known invasive or dispersal events of Triatominae, and their adaptive capacity to colonize modified habitats, the question arises whether niche conservatism (i.e. the limited capacity for niche differentiation within clades) across sister species could influence distribution patterns. Niche conservatism is herein analyzed across the highly heterogeneous landmass of North and Central America where most species complexes of the Triatominae are vectors of Trypanosoma cruzi. Since phylogenetic relationships among and within triatomine species complexes are still ill-defined, we first used a multi-locus phylogenetic analysis using mitochondrial and nuclear loci to validate relationships between species. Similarity of the ecological niche between six sister species' pairs was used to test the niche conservatism hypothesis. The results provide robust evidence of monophyly for North and Central America triatomine species. The hypothesis of niche conservatism was not rejected for any sister species pair, independently of niche width, distribution range, biogeographic affinity, or environmental heterogeneity; niche similarity correlated inversely with taxa divergence and according to a retention model. [ABSTRACT FROM AUTHOR]

Published

2014

38. Prevalence and Intensity of Soil-Transmitted Helminthiasis, Prevalence of Malaria and Nutritional Status of School Going Children in Honduras.

Author

Mejia Torres, Rosa Elena, Franco Garcia, Dora Nelly, Fontecha Sandoval, Gustavo Adolfo, Hernandez Santana, Adriana, Singh, Prabhjot, Mancero Bucheli, Sandra Tamara, Saboya, Martha, and Paz, Mirian Yolanda

Subjects

*SCHOOL children, *HELMINTHIASIS, *RAPID diagnostic tests, *NUTRITIONAL status, *ECOLOGICAL regions

Abstract

Background: Many small studies have been done in Honduras estimating soil-transmitted helminthiasis (STH) prevalence but a country-wide study was last done in 2005. The country has the highest burden of malaria among all Central American countries. The present study was done to estimate country-wide STH prevalence and intensity, malaria prevalence and nutritional status in school going children. Methods and Findings: A cross-sectional study was conducted following PAHO/WHO guidelines to select a sample of school going children of 3rd to 5th grades, representative of ecological regions in the country. A survey questionnaire was filled; anthropometric measurements, stool sample for STH and blood sample for malaria were taken. Kato-Katz method was used for STH prevalence and intensity and rapid diagnostic tests, microscopy, and polymerase chain reaction (PCR) were used for malaria parasite detection. A total of 2554 students were studied of which 43.5% had one or more STH. Trichuriasis was the most prevalent (34%) followed by ascariasis (22.3%) and hookworm (0.9%). Ecological regions II (59.7%) and VI (55.6%) in the north had the highest STH prevalence rates while IV had the lowest (10.6%). Prevalence of one or more high intensity STH was low (1.6%). Plasmodium vivax was detected by PCR in only 5 students (0.2%), all of which belonged to the same municipality; no P. falciparum infection was detected. The majority of children (83%) had normal body mass index for their respective age but a significant proportion were overweight (10.42%) and obese (4.35%). Conclusions: Biannual deworming campaigns would be necessary in ecological regions II and VI, where STH prevalence is >50%. High prevalence of obesity in school going children is a worrying trend and portends of future increase in obesity related diseases. Malaria prevalence, both symptomatic and asymptomatic, was low and provides evidence for Honduras to embark on elimination of the disease. Author Summary: Soil-transmitted helminthiasis (STH) are one of the most important neglected infectious diseases (NID). These not only have the potential to affect the growth and development of children, but can have irreversible consequences that carry into adulthood. However its prevalence has not been estimated since many years in Honduras. Although Honduras is the country with the highest burden of malaria in Central America, efforts to reduce the number of cases due to Plasmodium falciparum have lead the country towards an initiative for elimination. Using common platforms to do mapping of NID allows countries to reduce costs, build local capacities and strengthen monitoring and evaluation systems to track progress towards control and elimination goals. Honduras, one of the poorest countries in Central America, took advantage of an initiative to establish the prevalence of STH in school age children to assess the prevalence of malaria as a step in compiling evidence to support a future process of elimination of the disease. This innovative manner to put together epidemiological information for several NID might be replicated in other countries in the Americas to produce baseline and follow-up data to support decision making for processes to reach the goals established for these diseases. [ABSTRACT FROM AUTHOR]

Published

2014

39. Hunting, Swimming, and Worshiping: Human Cultural Practices Illuminate the Blood Meal Sources of Cave Dwelling Chagas Vectors (Triatoma dimidiata) in Guatemala and Belize.

Author

Stevens, Lori, Monroy, M. Carlota, Rodas, Antonieta Guadalupe, and Dorn, Patricia L.

Subjects

*TRYPANOSOMA cruzi, *ANIMAL feeding behavior, *TRIATOMA, *CAVES, *FOOD animals, *CHAGAS' disease

Abstract

Background: Triatoma dimidiata, currently the major Central American vector of Trypanosoma cruzi, the parasite that causes Chagas disease, inhabits caves throughout the region. This research investigates the possibility that cave dwelling T. dimidiata might transmit the parasite to humans and links the blood meal sources of cave vectors to cultural practices that differ among locations. Methodology/Principal Findings: We determined the blood meal sources of twenty-four T. dimidiata collected from two locations in Guatemala and one in Belize where human interactions with the caves differ. Blood meal sources were determined by cloning and sequencing PCR products amplified from DNA extracted from the vector abdomen using primers specific for the vertebrate 12S mitochondrial gene. The blood meal sources were inferred by ≥99% identity with published sequences. We found 70% of cave-collected T. dimidiata positive for human DNA. The vectors had fed on 10 additional vertebrates with a variety of relationships to humans, including companion animal (dog), food animals (pig, sheep/goat), wild animals (duck, two bat, two opossum species) and commensal animals (mouse, rat). Vectors from all locations fed on humans and commensal animals. The blood meal sources differ among locations, as well as the likelihood of feeding on dog and food animals. Vectors from one location were tested for T. cruzi infection, and 30% (3/10) tested positive, including two positive for human blood meals. Conclusions/Significance: Cave dwelling Chagas disease vectors feed on humans and commensal animals as well as dog, food animals and wild animals. Blood meal sources were related to human uses of the caves. We caution that just as T. dimidiata in caves may pose an epidemiological risk, there may be other situations where risk is thought to be minimal, but is not. Author Summary: Caves have enduring appeal to humans, and their lure in Central America includes tourism, religious ceremonies and shelter. The major Chagas disease vector in this region, Triatoma dimidiata, inhabits caves throughout its range. We challenge the assumption that cave-dwelling vectors are not important for human transmission by determining blood meal sources of vectors collected in caves from three locations that differ in the activities of humans at the caves, and link the results to cultural practices that differ among locations. Seventy percent of cave-collected vectors were positive for human DNA, and fed on 10 additional vertebrates with relationships to humans varying from companion animal (dog), food animals (pig, sheep/goat), wild animals (duck, bat, opossum) to commensal animals (mouse, rat). Feeding sources relate to human activities that vary among locations, for example, human and food animals were the main sources in Cahabón caves, located within deforested areas that are now agricultural fields and houses. We tested vectors from one location for infection with the Chagas disease parasite and found 30% (3 of 10) infected, including two of the three vectors from this location that had evidence of human blood. Humans should be aware of potential consequences of visiting and sleeping in caves. [ABSTRACT FROM AUTHOR]

Published

2014

40. Transcriptome Sequencing and Developmental Regulation of Gene Expression in Anopheles aquasalis.

Author

Costa-da-Silva, André L., Marinotti, Osvaldo, Ribeiro, José M. C., Silva, Maria C. P., Lopes, Adriana R., Barros, Michele S., Sá-Nunes, Anderson, Kojin, Bianca B., Carvalho, Eneas, Suesdek, Lincoln, Silva-Neto, Mário Alberto C., James, Anthony A., and Capurro, Margareth L.

Subjects

*GENETIC regulation, *ANOPHELES, *TRANSCRIPTOMES, *MESSENGER RNA, *PLASMODIUM vivax

Abstract

Background: Anopheles aquasalis is a major malaria vector in coastal areas of South and Central America where it breeds preferentially in brackish water. This species is very susceptible to Plasmodium vivax and it has been already incriminated as responsible vector in malaria outbreaks. There has been no high-throughput investigation into the sequencing of An. aquasalis genes, transcripts and proteins despite its epidemiological relevance. Here we describe the sequencing, assembly and annotation of the An. aquasalis transcriptome. Methodology/Principal Findings: A total of 419 thousand cDNA sequence reads, encompassing 164 million nucleotides, were assembled in 7544 contigs of ≥2 sequences, and 1999 singletons. The majority of the An. aquasalis transcripts encode proteins with their closest counterparts in another neotropical malaria vector, An. darlingi. Several analyses in different protein databases were used to annotate and predict the putative functions of the deduced An. aquasalis proteins. Larval and adult-specific transcripts were represented by 121 and 424 contig sequences, respectively. Fifty-one transcripts were only detected in blood-fed females. The data also reveal a list of transcripts up- or down-regulated in adult females after a blood meal. Transcripts associated with immunity, signaling networks and blood feeding and digestion are discussed. Conclusions/Significance: This study represents the first large-scale effort to sequence the transcriptome of An. aquasalis. It provides valuable information that will facilitate studies on the biology of this species and may lead to novel strategies to reduce malaria transmission on the South American continent. The An. aquasalis transcriptome is accessible at http://exon.niaid.nih.gov/transcriptome/An_aquasalis/Anaquexcel.xlsx. Author Summary: The mosquito Anopheles aquasalis is responsible for transmitting malaria parasites to humans in South America coastal areas. An. aquasalis females transmit Plasmodium vivax and Plasmodium falciparum, the two major malaria etiological agents in these endemic sites. Although the vectorial importance of this mosquito has been demonstrated, molecular aspects of its biology have been poorly explored. In this study, we present the transcriptome of An. aquasalis using 454 sequencing followed by automated bioinformatic analyses. Our study identified and annotated more than 9,000 putative proteins based on homology, gene ontology, and/or biochemical pathways, including putative secretory proteins. The comparison of RNAs present in samples extracted from larvae, sugar fed adult females, or blood fed adult females, reveal gene expression regulation during mosquito development. The present dataset provides a useful resource and adds greatly to our understanding of a human malaria vector from developing countries. [ABSTRACT FROM AUTHOR]

Published

2014

41. Molecular Evidence of Demographic Expansion of the Chagas Disease Vector Triatoma dimidiata (Hemiptera, Reduviidae, Triatominae) in Colombia.

Author

Gómez-Palacio, Andrés and Triana, Omar

Subjects

*CHAGAS' disease, *DISEASE vectors, *TRIATOMA, *ASSASSIN bugs, *CONENOSES, *LYME disease, *CHLOROPLAST DNA

Abstract

Background: Triatoma dimidiata is one of the most significant vectors of Chagas disease in Central America and Colombia, and, as in most species, its pattern of genetic variation within and among populations is strongly affected by its phylogeographic history. A putative origin from Central America has been proposed for Colombian populations, and high genetic differentiation among three biographically different population groups has recently been evidenced. Analyses based on putatively neutral markers provide data from which past events, such as population expansions and colonization, can be inferred. We analyzed the genealogies of the nicotinamide adenine dinucleotide dehydrogenase 4 (ND4) and the cytochrome oxidase subunit 1-mitochondrial genes, as well as partial nuclear ITS-2 DNA sequences obtained across most of the eco-geographical range in Colombia, to assess the population structure and demographic factors that may explain the geographical distribution of T. dimidiata in this country. Results: The population structure results support a significant association between genetic divergence and the eco-geographical location of population groups, suggesting that clear signals of demographic expansion can explain the geographical distribution of haplotypes of population groups. Additionally, empirical date estimation of the event suggests that the population's expansion can be placed after the emergence of the Panama Isthmus, and that it was possibly followed by a population fragmentation process, perhaps resulting from local adaptation accomplished by orographic factors such as geographical isolation. Conclusion: Inferences about the historical population processes in Colombian T. dimidiata populations are generally in accordance with population expansions that may have been accomplished by two important biotic and orographic events such as the Great American Interchange and the uplift of the eastern range of the Andes mountains in central Colombia. Author Summary: The Chagas disease vector Triatoma dimidiata is one of the most important vectors in America, owing to its wide genetic and epidemiological heterogeneity. Colombian T. dimidiata populations occupy eclectic sylvatic ecotopes, but have also been found in dwellings infected with Trypanosoma cruzi, and therefore it is considered (along with Rhodnius prolixus) the most important vector in several departments. The current study explores the population structure history of Colombian populations by means of a molecular coalescence approach. The results indicate that the historical population processes in T. dimidiata in Colombia are in accordance with population expansions that may have been accomplished by two important biotic and orographic events such as the Great American Interchange and the uplift of the eastern range of the Andes Mountains in central Colombia. The genetic history as well as the heterogeneity of the populations could be reflected in different responses of the populations to vector control interventions; thus, a local level of entomological vigilance should be implemented to evaluate the intervention results in each region. [ABSTRACT FROM AUTHOR]

Published

2014

42. Molecular Evidence of Demographic Expansion of the Chagas Disease Vector Triatoma dimidiata (Hemiptera, Reduviidae, Triatominae) in Colombia.

Author

Gómez-Palacio, Andrés and Triana, Omar

Subjects

*CHAGAS' disease, *DISEASE prevalence, *HEMIPTERA, *GENETICS

Abstract

Background: Triatoma dimidiata is one of the most significant vectors of Chagas disease in Central America and Colombia, and, as in most species, its pattern of genetic variation within and among populations is strongly affected by its phylogeographic history. A putative origin from Central America has been proposed for Colombian populations, and high genetic differentiation among three biographically different population groups has recently been evidenced. Analyses based on putatively neutral markers provide data from which past events, such as population expansions and colonization, can be inferred. We analyzed the genealogies of the nicotinamide adenine dinucleotide dehydrogenase 4 (ND4) and the cytochrome oxidase subunit 1-mitochondrial genes, as well as partial nuclear ITS-2 DNA sequences obtained across most of the eco-geographical range in Colombia, to assess the population structure and demographic factors that may explain the geographical distribution of T. dimidiata in this country. Results: The population structure results support a significant association between genetic divergence and the eco-geographical location of population groups, suggesting that clear signals of demographic expansion can explain the geographical distribution of haplotypes of population groups. Additionally, empirical date estimation of the event suggests that the population's expansion can be placed after the emergence of the Panama Isthmus, and that it was possibly followed by a population fragmentation process, perhaps resulting from local adaptation accomplished by orographic factors such as geographical isolation. Conclusion: Inferences about the historical population processes in Colombian T. dimidiata populations are generally in accordance with population expansions that may have been accomplished by two important biotic and orographic events such as the Great American Interchange and the uplift of the eastern range of the Andes mountains in central Colombia. [ABSTRACT FROM AUTHOR]

Published

2014

43. Serotype-specific detection of dengue viruses in a nonstructural protein 1-based enzyme-linked immunosorbent assay validated with a multi-national cohort

Author

Megan Hiley, Diana Fandos, Rakesh Lodha, Helena de Puig, Nol Salcedo, Lee Gehrke, Guruprasad R. Medigeshi, Laura Mendoza, Ankita Reddy, Juan E. Ludert, Mohit Singla, Alice F. Versiani, Ivette Lorenzana, Hugo Vicente Ralde, Luis Angel Villar, Federico Perdomo-Celis, Maurício Lacerda Nogueira, Carlos F. Narváez, Irene Bosch, Margarita Gélvez-Ramírez, and Bobby Brooke Herrera

Subjects

RNA viruses, 0301 basic medicine, Serotype, Physiology, viruses, RC955-962, Viral Nonstructural Proteins, Dengue virus, Pathology and Laboratory Medicine, Antibodies, Viral, medicine.disease_cause, Biochemistry, Geographical locations, Dengue fever, Cohort Studies, Dengue, 0302 clinical medicine, Immune Physiology, Arctic medicine. Tropical medicine, Medicine and Health Sciences, Medicine, Enzyme-Linked Immunoassays, Immune System Proteins, biology, Antibodies, Monoclonal, virus diseases, Bioassays and Physiological Analysis, Infectious Diseases, Medical Microbiology, Viral Pathogens, Viruses, Cohort, Pathogens, Antibody, Public aspects of medicine, RA1-1270, Brazil, Research Article, Cohort study, Asia, medicine.drug_class, Immunology, 030231 tropical medicine, India, Enzyme-Linked Immunosorbent Assay, Research and Analysis Methods, Serogroup, Monoclonal antibody, Microbiology, Sensitivity and Specificity, Antibodies, 03 medical and health sciences, Immune system, Diagnostic Medicine, Animals, Humans, Immunoassays, Microbial Pathogens, Enzyme Assays, Flaviviruses, business.industry, Organisms, Public Health, Environmental and Occupational Health, Biology and Life Sciences, Proteins, Central America, Dengue Virus, South America, biochemical phenomena, metabolism, and nutrition, medicine.disease, Virology, Mice, Inbred C57BL, Latin America, 030104 developmental biology, Honduras, North America, Immunologic Techniques, biology.protein, People and places, Biochemical Analysis, business

Abstract

Background Dengue virus (DENV) infections pose one of the largest global barriers to human health. The four serotypes (DENV 1–4) present different symptoms and influence immune response to subsequent DENV infections, rendering surveillance, risk assessments, and disease control particularly challenging. Early diagnosis and appropriate clinical management is critical and can be achieved by detecting DENV nonstructural protein 1 (NS1) in serum during the acute phase. However, few NS1-based tests have been developed that are capable of differentiating DENV serotypes and none are currently commercially available. Methodology/Principle findings We developed an enzyme-linked immunosorbent assay (ELISA) to distinguish DENV-1-4 NS1 using serotype-specific pairs of monoclonal antibodies. A total of 1,046 antibodies were harvested from DENV-immunized mice and screened for antigen binding affinity. ELISA clinical performance was evaluated using 408 polymerase chain reaction-confirmed dengue samples obtained from patients in Brazil, Honduras, and India. The overall sensitivity of the test for pan-DENV was 79.66% (325/408), and the sensitivities for DENV-1-4 serotyping were 79.1% (38/48), 80.41% (78/97), 100% (45/45), and 79.6% (98/123), respectively. Specificity reached 94.07–100%. Significance Our study demonstrates a robust antibody screening strategy that enabled the development of a serotype NS1-based ELISA with maximized specific and sensitive antigen binding. This sensitive and specific assay also utilized the most expansive cohort to date, and of which about half are from Latin America, a geographic region severely underrepresented in previous similar studies. This ELISA test offers potential enhanced diagnostics during the acute phase of infection to help guide patient care and disease control. These results indicate that this ELISA is a promising aid in early DENV-1-4 diagnosis and surveillance in regions of endemicity in addition to offer convenient monitoring for future vaccine interventions., Author summary Dengue virus (DENV) infection is an increasingly significant threat to global health, with a yearly estimate of 390 million infections and an expected increasing burden with the rise of climate change and globalization. DENV is caused by one of the four serotypes (DENV-1-4), each of which have been associated with different immune responses and clinical manifestations. We developed a method to detect DENV serotypes by targeting the nonstructural 1 (NS1) antigen through an enzyme-linked immunosorbent-based assay (ELISA) with high sensitivity and specificity. We demonstrate that our high throughput mouse-derived antibody screening method selected for optimal test performance. The antibodies were integrated into an ELISA that can distinguish between the four different dengue serotypes by serotype-specific pairing. In addition, we provide a dengue universal antibody combination that enables pan-virus detection independently of the serotype. We use the ELISA in three different countries and calculate overall and site-specific sensitivities and specificities. The assay performs optimally when levels of viremia are high during the first five days of fever.

Published

2020

44. Central Latin America: Two decades of challenges in neglected tropical disease control

Author

Maria Elena Bottazzi, Ashish Damania, and Peter J. Hotez

Subjects

Latin Americans, Epidemiology, RC955-962, Global Health, Geographical locations, Medical Conditions, Arctic medicine. Tropical medicine, Zoonoses, Prevalence, Medicine and Health Sciences, Public and Occupational Health, Leishmaniasis, Protozoans, Trypanosoma Cruzi, Health Policy, Neglected Diseases, Eukaryota, Guatemala, Disease control, Geography, Editorial, Infectious Diseases, Neglected tropical diseases, Public aspects of medicine, RA1-1270, Neglected Tropical Diseases, Trypanosoma, Formal Comment, Development economics, medicine, Parasitic Diseases, El Salvador, Humans, Chagas Disease, Disease Elimination, Mexico, Protozoan Infections, Public Health, Environmental and Occupational Health, Organisms, Tropical disease, Biology and Life Sciences, Central America, South America, medicine.disease, Venezuela, Tropical Diseases, Parasitic Protozoans, Malaria, Latin America, Honduras, Communicable Disease Control, North America, People and places

Published

2020

45. Current and Future Niche of North and Central American Sand Flies (Diptera: Psychodidae) in Climate Change Scenarios.

Author

Moo-Llanes, David, Ibarra-Cerdeña, Carlos N., Rebollar-Téllez, Eduardo A., Ibáñez-Bernal, Sergio, González, Camila, and Ramsey, Janine M.

Subjects

*SAND flies, *ECOLOGICAL niche, *CLIMATE change

Abstract

Ecological niche models are useful tools to infer potential spatial and temporal distributions in vector species and to measure epidemiological risk for infectious diseases such as the Leishmaniases. The ecological niche of 28 North and Central American sand fly species, including those with epidemiological relevance, can be used to analyze the vector's ecology and its association with transmission risk, and plan integrated regional vector surveillance and control programs. In this study, we model the environmental requirements of the principal North and Central American phlebotomine species and analyze three niche characteristics over future climate change scenarios: i) potential change in niche breadth, ii) direction and magnitude of niche centroid shifts, iii) shifts in elevation range. Niche identity between confirmed or incriminated Leishmania vector sand flies in Mexico, and human cases were analyzed. Niche models were constructed using sand fly occurrence datapoints from Canada, USA, Mexico, Guatemala and Belize. Nine non-correlated bioclimatic and four topographic data layers were used as niche components using GARP in OpenModeller. Both B2 and A2 climate change scenarios were used with two general circulation models for each scenario (CSIRO and HadCM3), for 2020, 2050 and 2080. There was an increase in niche breadth to 2080 in both scenarios for all species with the exception of Lutzomyia vexator. The principal direction of niche centroid displacement was to the northwest (64%), while the elevation range decreased greatest for tropical, and least for broad-range species. Lutzomyia cruciata is the only epidemiologically important species with high niche identity with that of Leishmania spp. in Mexico. Continued landscape modification in future climate change will provide an increased opportunity for the geographic expansion of NCA sand flys' ENM and human exposure to vectors of Leishmaniases. [ABSTRACT FROM AUTHOR]

Published

2013

46. Evaluation of rK39 Rapid Diagnostic Tests for Canine Visceral Leishmaniasis: Longitudinal Study and Meta-Analysis.

Author

Quinnell, Rupert J., Carson, Connor, Reithinger, Richard, Garcez, Lourdes M., and Courtenay, Orin

Subjects

*RAPID diagnostic tests, *VISCERAL leishmaniasis, *DETECTOR dogs, *VECTOR-borne diseases, *ANTIBODY titer, *LYME disease

Abstract

Background: There is a need for sensitive and specific rapid diagnostic tests (RDT) for canine visceral leishmaniasis. The aims of this study were to evaluate the diagnostic performance of immunochromatographic dipstick RDTs using rK39 antigen for canine visceral leishmaniasis by (i) investigating the sensitivity of RDTs to detect infection, disease and infectiousness in a longitudinal cohort study of natural infection in Brazil, and (ii) using meta-analysis to estimate the sensitivity and specificity of RDTs from published studies. Methodology: We used a rK39 RDT (Kalazar Detect Canine Rapid Test; Inbios) to test sera collected from 54 sentinel dogs exposed to natural infection in an endemic area of Brazil. Dogs were sampled bimonthly for up to 27 months, and rK39 results compared to those of crude antigen ELISA, PCR, clinical status and infectiousness to sandflies. We then searched MEDLINE and Web of Knowledge (1993–2011) for original studies evaluating the performance of rK39 RDTs in dogs. Meta-analysis of sensitivity and specificity was performed using bivariate mixed effects models. Principal Findings: The sensitivity of the rK39 RDT in Brazil to detect infection, disease and infectiousness was 46%, 77% and 78% respectively. Sensitivity increased with time since infection, antibody titre, parasite load, clinical score and infectiousness. Sixteen studies met the inclusion criteria for meta-analysis. The combined sensitivity of rK39 RDTs was 86.7% (95% CI: 76.9–92.8%) to detect clinical disease and 59.3% (37.9–77.6%) to detect infection. Combined specificity was 98.7% (89.5–99.9%). Both sensitivity and specificity varied considerably between studies. Conclusion: The diagnostic performance of rK39 RDTs is reasonable for confirmation of infection in suspected clinical cases, but the sensitivity to detect infected dogs is too low for large-scale epidemiological studies and operational control programmes. Author Summary: Canine visceral leishmaniasis is a vector-borne disease caused by the intracellular parasite Leishmania infantum. It is an important veterinary disease, and dogs are also the main animal reservoir for human infection. The disease is widespread in the Mediterranean area, and parts of Asia and South and Central America, and is potentially fatal in both dogs and humans unless treated. Diagnosis of canine infections requires serological or molecular tests. Detection of infection in dogs is important prior to treatment, and in epidemiological studies and control programmes, and a sensitive and specific rapid diagnostic test would be very useful. Rapid diagnostic tests (RDTs) have been developed, but their diagnostic performance has been reported to be variable. We evaluated the sensitivity of a RDT based on serological detection of the rK39 antigen in a cohort of naturally infected Brazilian dogs. The sensitivity of the test to detect infection was relatively low, but increased with time since infection and the severity of infection. We then carried out a meta-analysis of published studies of rK39 RDTs, evaluating the sensitivity to detect disease and infection. The results suggest that rK39 RDTs may be useful in a veterinary clinical setting, but the sensitivity to detect infection is too low for operational control programmes. [ABSTRACT FROM AUTHOR]

Published

2013

47. Oral Administration of GW788388, an Inhibitor of Transforming Growth Factor Beta Signaling, Prevents Heart Fibrosis in Chagas Disease.

Author

de Oliveira, Fabiane L., Araújo-Jorge, Tania C., de Souza, Elen M., de Oliveira, Gabriel M., Degrave, Wim M., Feige, Jean-Jacques, Bailly, Sabine, and Waghabi, Mariana C.

Subjects

*TRANSFORMING growth factors-beta, *CHAGAS' disease, *HEART fibrosis, *ORAL drug administration, *TRANSFORMING growth factors, *CARDIOVASCULAR diseases, *HEART conduction system

Abstract

Background: Chagas disease induced by Trypanosoma cruzi (T. cruzi) infection is a major cause of mortality and morbidity affecting the cardiovascular system for which presently available therapies are largely inadequate. Transforming Growth Factor beta (TGFß) has been involved in several regulatory steps of T. cruzi invasion and in host tissue fibrosis. GW788388 is a new TGFß type I and type II receptor kinase inhibitor that can be orally administered. In the present work, we studied its effects in vivo during the acute phase of experimental Chagas disease. Methodology/Principal Findings: Male Swiss mice were infected intraperitoneally with 104 trypomastigotes of T. cruzi (Y strain) and evaluated clinically. We found that this compound given once 3 days post infection (dpi) significantly decreased parasitemia, increased survival, improved cardiac electrical conduction as measured by PR interval in electrocardiography, and restored connexin43 expression. We could further show that cardiac fibrosis development, evaluated by collagen type I and fibronectin expression, could be inhibited by this compound. Interestingly, we further demonstrated that administration of GW788388 at the end of the acute phase (20 dpi) still significantly increased survival and decreased cardiac fibrosis (evaluated by Masson's trichrome staining and collagen type I expression), in a stage when parasite growth is no more central to this event. Conclusion/Significance: This work confirms that inhibition of TGFß signaling pathway can be considered as a potential alternative strategy for the treatment of the symptomatic cardiomyopathy found in the acute and chronic phases of Chagas disease. Author Summary: Cardiac damage and dysfunction are prominent features in patients with chronic Chagas disease, which is caused by infection with the protozoan parasite Trypanosoma cruzi (T. cruzi) and affects 10–12 million individuals in South and Central America. Our group previously reported that transforming growth factor beta (TGFß) is implicated in several regulatory aspects of T. cruzi invasion and growth and in host tissue fibrosis. In the present work, we evaluated the therapeutic action of an oral inhibitor of TGFß signaling (GW788388) administered during the acute phase of experimental Chagas disease. GW788388 treatment significantly reduced mortality and decreased parasitemia. Electrocardiography showed that GW788388 treatment was effective in protecting the cardiac conduction system, preserving gap junction plaque distribution and avoiding the development of cardiac fibrosis. Inhibition of TGFß signaling in vivo appears to potently decrease T. cruzi infection and to prevent heart damage in a preclinical mouse model. This suggests that this class of molecules may represent a new therapeutic tool for acute and chronic Chagas disease that warrants further pre-clinical exploration. Administration of TGFß inhibitors during chronic infection in mouse models should be further evaluated, and future clinical trials should be envisaged. [ABSTRACT FROM AUTHOR]

Published

2012

48. Regulatory T Cells in the Pathogenesis and Healing of Chronic Human Dermal Leishmaniasis Caused by Leishmania (Viannia) Species.

Author

Rodriguez-Pinto, Daniel, Navas, Adriana, Blanco, Víctor Manuel, Ramírez, Lady, Garcerant, Daniel, Cruz, Adriana, Craft, Noah, and Saravia, Nancy Gore

Subjects

*REGULATORY T cells, *HEALING, *LEISHMANIASIS, *CHRONIC wounds & injuries, *T cells, *LEISHMANIA

Abstract

Background: The inflammatory response is prominent in the pathogenesis of dermal leishmaniasis. We hypothesized that regulatory T cells (Tregs) may be diminished in chronic dermal leishmaniasis (CDL) and contribute to healing during treatment. Methodology/Principal Findings: The frequency and functional capacity of Tregs were evaluated at diagnosis and following treatment of CDL patients having lesions of ≥6 months duration and asymptomatically infected residents of endemic foci. The frequency of CD4+CD25hi cells expressing Foxp3 or GITR or lacking expression of CD127 in peripheral blood was determined by flow cytometry. The capacity of CD4+CD25+ cells to inhibit Leishmania-specific responses was determined by co-culture with effector CD4+CD25− cells. The expression of FOXP3, IFNG, IL10 and IDO was determined in lesion and leishmanin skin test site biopsies by qRT-PCR. Although CDL patients presented higher frequency of CD4+CD25hiFoxp3+ cells in peripheral blood and higher expression of FOXP3 at leishmanin skin test sites, their CD4+CD25+ cells were significantly less capable of suppressing antigen specific-IFN-γ secretion by effector cells compared with asymptomatically infected individuals. At the end of treatment, both the frequency of CD4+CD25hiCD127− cells and their capacity to inhibit proliferation and IFN-γ secretion increased and coincided with healing of cutaneous lesions. IDO was downregulated during healing of lesions and its expression was positively correlated with IFNG but not FOXP3. Conclusions/Significance: The disparity between CD25hiFoxp3+ CD4 T cell frequency in peripheral blood, Foxp3 expression at the site of cutaneous responses to leishmanin, and suppressive capacity provides evidence of impaired Treg function in the pathogenesis of CDL. Moreover, the concurrence of increased Leishmania-specific suppressive capacity with induction of a CD25hiCD127− subset of CD4 T cells during healing supports the participation of Tregs in the resolution of chronic dermal lesions. Treg subsets may therefore be relevant in designing immunotherapeutic strategies for recalcitrant dermal leishmaniasis caused by Leishmania (Viannia) species. Author Summary: The immune inflammatory response is a double edged sword. During infectious diseases, regulatory T cells can prevent eradication of the pathogen but can also limit inflammation and tissue damage. We investigated the role of regulatory T cells in chronic dermal leishmaniasis caused by species of the parasite Leishmania that are endemic in South and Central America. We found that although individuals with chronic lesions have increased regulatory T cells in their blood and at skin sites where immune responses to Leishmania were taking place compared to infected individuals who do not develop disease, their capacity to control the inflammatory response to Leishmania was inferior. However, healing of chronic lesions at the end of treatment was accompanied by an increase in the number and capacity of regulatory T cells to inhibit the function of effector T cells that mediate the inflammatory response. Different subsets of regulatory T cells, defined by the expression of molecular markers, were identified during chronic disease and healing, supporting the participation of distinct regulatory T cells in the development of disease and the control of inflammation during the healing response. Immunotherapeutic strategies may allow these regulatory T cell subsets to be mobilized or mitigated to achieve healing. [ABSTRACT FROM AUTHOR]

Published

2012

49. The Struggle of Neglected Scientific Groups: Ten Years of NeTropica Efforts to Promote Research in Tropical Diseases in Central America.

Author

Moreno, Edgardo, Gutiérrez, José María, and Chaves-Olarte, Esteban

Subjects

*TROPICAL medicine, *SCIENTIFIC community, *GRADUATE education, *POLITICAL stability, *MIDDLE-income countries

Abstract

The article discusses the importance of developing local scientific communities in low- and middle-income countries (LMICs) to have a sustainable impact on public health. It focuses on the 10-year activities of the Network for Research and Training in Tropical Diseases in Central America (NeTropica), which aimed to develop a competitive scientific community in the field of tropical diseases in Central America. The article provides historical context on the challenges faced by Central America in the 1980s and the emergence of a graduate program between the Karolinska Institute and Central American universities. NeTropica aims to strengthen the Central American scientific community by providing research grants and promoting academic activities. It has seen an increase in interest from Central American scientists, resulting in a higher quality of selected projects. The program has supported regional graduate programs, organized scientific meetings and workshops, and generated scientific publications in well-recognized journals. However, it faces challenges due to limited research funds and the political and economic instability of the region. Despite these challenges, NeTropica has made significant contributions to public health and science in Central America. [Extracted from the article]

Published

2011

50. Triatoma dimidiata Infestation in Chagas Disease Endemic Regions of Guatemala: Comparison of Random and Targeted Cross-Sectional Surveys.

Author

King, Raymond J., Cordon-Rosales, Celia, Cox, Jonathan, Davies, Clive R., and Kitron, Uriel D.

Subjects

*CHAGAS' disease, *ENDEMIC diseases, *TRIATOMA, *LAND surface temperature, *LYME disease, *INFECTIOUS disease transmission, *TICK infestations

Abstract

Background: Guatemala is presently engaged in the Central America Initiative to interrupt Chagas disease transmission by reducing intradomiciliary prevalence of Triatoma dimidiata, using targeted cross-sectional surveys to direct control measures to villages exceeding the 5% control threshold. The use of targeted surveys to guide disease control programs has not been evaluated. Here, we compare the findings from the targeted surveys to concurrent random cross-sectional surveys in two primary foci of Chagas disease transmission in central and southeastern Guatemala. Methodology/Principal Findings: Survey prevalences of T. dimidiata intradomiciliary infestation by village and region were compared. Univariate logistic regression was used to assess the use of risk factors to target surveys and to evaluate indicators associated with village level intradomiciliary prevalences >5% by survey and region. Multivariate logistic regression models were developed to assess the ability of random and targeted surveys to target villages with intradomiciliary prevalence exceeding the control threshold within each region. Regional prevalences did not vary by survey; however, village prevalences were significantly greater in random surveys in central (13.0% versus 8.7%) and southeastern (22.7% versus 6.9%) Guatemala. The number of significant risk factors detected did not vary by survey in central Guatemala but differed considerably in the southeast with a greater number of significant risk factors in the random survey (e.g. land surface temperature, relative humidity, cropland, grassland, tile flooring, and stick and mud and palm and straw walls). Differences in the direction of risk factor associations were observed between regions in both survey types. The overall discriminative capacity was significantly greater in the random surveys in central and southeastern Guatemala, with an area under the receiver-operator curve (AUC) of 0.84 in the random surveys and approximately 0.64 in the targeted surveys in both regions. Sensitivity did not differ between surveys, but the positive predictive value was significantly greater in the random surveys. Conclusions/Significance: Surprisingly, targeted surveys were not more effective at determining T. dimidiata prevalence or at directing control to high risk villages in comparison to random surveys. We recommend that random surveys should be selected over targeted surveys whenever possible, particularly when the focus is on directing disease control and elimination and when risk factor association has not been evaluated for all regions under investigation. Author Summary: Chagas disease is a vector-borne parasitic zoonosis endemic throughout South and Central America and Mexico. Guatemala is engaged in the Central America Initiative to interrupt Chagas disease transmission. A major strategy is the reduction of Triatoma dimidiata domiciliary infestations through indoor application of residual insecticides. Successful control of T. dimidiata will depend on accurate identification of areas at greatest risk for infestation. Initial efforts focused primarily on targeted surveys of presumed risk factors and suspected infestation to define intervention areas. This policy has not been evaluated and might not maximize the effectiveness of limited resources if high prevalence villages are missed or low prevalence villages are visited unnecessarily. We compare findings from the targeted surveys to concurrent random surveys in two primary foci of Chagas disease transmission in Guatemala to evaluate the performance of the targeted surveys. Our results indicate that random surveys performed better than targeted surveys and should be considered over targeted surveys when reliability of risk factors has not been evaluated, identify useful environmental factors to predict infestation, and indicate that infestation risk varies locally. These findings are useful for decision-makers at national Chagas Disease control programs in Central America, institutions supporting development efforts, and funding agencies. [ABSTRACT FROM AUTHOR]

Published

2011