Your search keyword '"Lopez, Job E."' showing total 49 results

1. Tick-Borne Diseases and Pregnancy: A Narrative Review Evaluating Pregnancy Complications Caused by Tick-Borne Diseases.

Author

Curtis, Michael W. and Lopez, Job E.

Published

2024

2. Borrelia turicatae from Ticks in Peridomestic Setting, Camayeca, Mexico.

Author

Vázquez-Guerrero, Edwin, Kneubehl, Alexander R., Pellegrini-Hernández, Patricio, Luis González-Quiroz, José, Domínguez-López, María Lilia, Krishnavajhala, Aparna, Estrada-de los Santos, Paulina, Antonio Ibarra, J., and Lopez, Job E.

Subjects

BORRELIA, RELAPSING fever, RESOURCE-limited settings, TICKS, GENOMICS

Abstract

We conducted surveillance studies in Sinaloa, Mexico, to determine the circulation of tick-borne relapsing fever spirochetes. We collected argasid ticks from a home in the village of Camayeca and isolated spirochetes. Genomic analysis indicated that Borrelia turicatae infection is a threat to those living in resource-limited settings. [ABSTRACT FROM AUTHOR]

Published

2024

3. New records of Ornithodoros turicata (Ixodida: Argasidae) in rural and urban sites in the Mexican states of Aguascalientes and Zacatecas indicate the potential for tick-borne relapsing fever.

Author

Vázquez-Guerrero, Edwin, González-Quiroz, José Luis, Domínguez-López, María Lilia, Kneubehl, Alexander R., Krishnavajhala, Aparna, Curtis, Michael W., Ponce-Mendoza, Alejandro, Estrada-de los Santos, Paulina, Lopez, Job E., and Ibarra, J. Antonio

Subjects

RELAPSING fever, DOMESTIC animals, TICKS, NINETEENTH century, SPIROCHETES

Abstract

Soft ticks from the Ornithodoros genus are vectors of relapsing fever (RF) spirochetes around the world. In Mexico, they were originally described in the 19th century. However, few recent surveillance studies have been conducted in Mexico, and regions where RF spirochetes circulate remain vague. Here, the presence of soft ticks in populated areas was assessed in two sites from the Mexican states of Aguascalientes and Zacatecas. Argasidae ticks were collected, identified by morphology and mitochondrial 16S rDNA gene sequencing, and tested for RF borreliae. The specimens in both sites were identified as Ornithodoros turicata but no RF spirochetes were detected. These findings emphasize the need to update the distribution of these ticks in multiple regions of Mexico and to determine the circulation of RF borreliosis in humans and domestic animals. [ABSTRACT FROM AUTHOR]

Published

2023

4. Analysis of variable major protein antigenic variation in the relapsing fever spirochete, Borrelia miyamotoi, in response to polyclonal antibody selection pressure.

Author

Gilmore, Robert D., Armstrong, Brittany A., Brandt, Kevin S., Van Gundy, Taylor J., Hojgaard, Andrias, Lopez, Job E., and Kneubehl, Alexander R.

Subjects

RELAPSING fever, ANTIGENIC variation, BORRELIA, GENE conversion, ANTIBODY formation, IMMUNOGLOBULINS, BORRELIA burgdorferi, BLUETONGUE virus

Abstract

Borrelia miyamotoi is a tick-transmitted spirochete that is genetically grouped with relapsing fever Borrelia and possesses multiple archived pseudogenes that encode variable major proteins (Vmps). Vmps are divided into two groups based on molecular size; variable large proteins (Vlps) and variable small proteins (Vsps). Relapsing fever Borrelia undergo Vmp gene conversion at a single expression locus to generate new serotypes by antigenic switching which is the basis for immune evasion that causes relapsing fever in patients. This study focused on B. miyamotoi vmp expression when spirochetes were subjected to antibody killing selection pressure. We incubated a low passage parent strain with mouse anti-B. miyamotoi polyclonal antiserum which killed the majority population, however, antibody-resistant reisolates were recovered. PCR analysis of the gene expression locus in the reisolates showed vsp1 was replaced by Vlp-encoded genes. Gel electrophoresis protein profiles and immunoblots of the reisolates revealed additional Vlps indicating that new serotype populations were selected by antibody pressure. Sequencing of amplicons from the expression locus of the reisolates confirmed the presence of a predominant majority serotype population with minority variants. These findings confirm previous work demonstrating gene conversion in B. miyamotoi and that multiple serotype populations expressing different vmps arise when subjected to antibody selection. The findings also provide evidence for spontaneous serotype variation emerging from culture growth in the absence of antibody pressure. Validation and determination of the type, number, and frequency of serotype variants that arise during animal infections await further investigations. [ABSTRACT FROM AUTHOR]

Published

2023

5. Amplification and sequencing of entire tick mitochondrial genomes for a phylogenomic analysis.

Author

Kneubehl, Alexander R., Muñoz-Leal, Sebastián, Filatov, Serhii, de Klerk, Daniel G., Pienaar, Ronel, Lohmeyer, Kimberly H., Bermúdez, Sergio E., Suriyamongkol, Thanchira, Mali, Ivana, Kanduma, Esther, Latif, Abdalla A., Sarih, M'hammed, Bouattour, Ali, de León, Adalberto A. Pérez, Teel, Pete D., Labruna, Marcelo B., Mans, Ben J., and Lopez, Job E.

Subjects

MITOCHONDRIAL DNA, TICKS, MITOCHONDRIA, POPULATION genetics, SCIENTIFIC community, GENOMES

Abstract

The mitochondrial genome (mitogenome) has proven to be important for the taxonomy, systematics, and population genetics of ticks. However, current methods to generate mitogenomes can be cost-prohibitive at scale. To address this issue, we developed a cost-effective approach to amplify and sequence the whole mitogenome of individual tick specimens. Using two different primer sites, this approach generated two full-length mitogenome amplicons that were sequenced using the Oxford Nanopore Technologies' Mk1B sequencer. We used this approach to generate 85 individual tick mitogenomes from samples comprised of the three tick families, 11 genera, and 57 species. Twenty-six of these species did not have a complete mitogenome available on GenBank prior to this work. We benchmarked the accuracy of this approach using a subset of samples that had been previously sequenced by low-coverage Illumina genome skimming. We found our assemblies were comparable or exceeded the Illumina method, achieving a median sequence concordance of 99.98%. We further analyzed our mitogenome dataset in a mitophylogenomic analysis in the context of all three tick families. We were able to sequence 72 samples in one run and achieved a cost/sample of ~ $10 USD. This cost-effective strategy is applicable for sample identification, taxonomy, systematics, and population genetics for not only ticks but likely other metazoans; thus, making mitogenome sequencing equitable for the wider scientific community. [ABSTRACT FROM AUTHOR]

Published

2022

6. Comparative genomics of the Western Hemisphere soft tick-borne relapsing fever borreliae highlights extensive plasmid diversity.

Author

Kneubehl, Alexander R., Krishnavajhala, Aparna, Leal, Sebastián Muñoz, Replogle, Adam J., Kingry, Luke C., Bermúdez, Sergio E., Labruna, Marcelo B., and Lopez, Job E.

Subjects

RELAPSING fever, COMPARATIVE genomics, GENOMICS, IXODIDAE, VECTOR-borne diseases, SPIROCHETES, BORRELIA

Abstract

Background: Tick-borne relapsing fever (TBRF) is a globally prevalent, yet under-studied vector-borne disease transmitted by soft and hard bodied ticks. While soft TBRF (sTBRF) spirochetes have been described for over a century, our understanding of the molecular mechanisms facilitating vector and host adaptation is poorly understood. This is due to the complexity of their small (~ 1.5 Mb) but fragmented genomes that typically consist of a linear chromosome and both linear and circular plasmids. A majority of sTBRF spirochete genomes' plasmid sequences are either missing or are deposited as unassembled sequences. Consequently, our goal was to generate complete, plasmid-resolved genomes for a comparative analysis of sTBRF species of the Western Hemisphere. Results: Utilizing a Borrelia specific pipeline, genomes of sTBRF spirochetes from the Western Hemisphere were sequenced and assembled using a combination of short- and long-read sequencing technologies. Included in the analysis were the two recently isolated species from Central and South America, Borrelia puertoricensis n. sp. and Borrelia venezuelensis, respectively. Plasmid analyses identified diverse sequences that clustered plasmids into 30 families; however, only three families were conserved and syntenic across all species. We also compared two species, B. venezuelensis and Borrelia turicatae, which were isolated ~ 6,800 km apart and from different tick vector species but were previously reported to be genetically similar. Conclusions: To truly understand the biological differences observed between species of TBRF spirochetes, complete chromosome and plasmid sequences are needed. This comparative genomic analysis highlights high chromosomal synteny across the species yet diverse plasmid composition. This was particularly true for B. turicatae and B. venezuelensis, which had high average nucleotide identity yet extensive plasmid diversity. These findings are foundational for future endeavors to evaluate the role of plasmids in vector and host adaptation. [ABSTRACT FROM AUTHOR]

Published

2022

7. Diversity and distribution of the tick-borne relapsing fever spirochete Borrelia turicatae.

Author

Krishnavajhala, Aparna, Armstrong, Brittany A., Kneubehl, Alexander R., Gunter, Sarah M., Piccione, Julie, Kim, Hee J., Ramirez, Rosa, Castro-Arellano, Ivan, Roachell, Walter, Teel, Pete D., and Lopez, Job E.

Subjects

RELAPSING fever, BORRELIA, SPIROCHETES, PUBLIC spaces, GENETIC variation

Abstract

Borrelia turicatae is a causative agent of tick-borne relapsing fever (TBRF) in the subtropics and tropics of the United States and Latin America. Historically, B. turicatae was thought to be maintained in enzootic cycles in rural areas. However, there is growing evidence that suggests the pathogen has established endemic foci in densely populated regions of Texas. With the growth of homelessness in the state and human activity in city parks, it was important to implement field collection efforts to identify areas where B. turicatae and its vector circulate. Between 2017 and 2020 we collected Ornithodoros turicata ticks in suburban and urban areas including public and private parks and recreational spaces. Ticks were fed on naïve mice and spirochetes were isolated from the blood. Multilocus sequence typing (MLST) was performed on eight newly obtained isolates and included previously reported sequences. The four chromosomal loci targeted for MLST were 16S ribosomal RNA (rrs), flagellin B (flaB), DNA gyrase B (gyrB), and the intergenic spacer (IGS). Given the complexity of Borrelia genomes, plasmid diversity was also evaluated. These studies indicate that the IGS locus segregates B. turicatae into four genomic types and plasmid diversity is extensive between isolates. Furthermore, B. turicatae and its vector have established endemic foci in parks and recreational areas in densely populated settings of Texas. Author summary: In the Americas, the range and genetic diversity of tick-borne relapsing fever spirochetes remains poorly defined. Borrelia turicatae is the predominant species in the southwestern and eastern portions of the United States and to Latin America, and recent studies suggests the pathogens and their vectors have established endemic foci in highly populated areas of the United States. Given the rate of urban growth and the incorporation of green spaces into large cities, this study supports previous work suggesting the expansion of B. turicatae. [ABSTRACT FROM AUTHOR]

Published

2021

8. Relapsing Fever Infection Manifesting as Aseptic Meningitis, Texas, USA.

Author

Ellis, Lisa, Curtis, Michael W., Gunter, Sarah M., and Lopez, Job E.

Subjects

LYME disease, RELAPSING fever, EMERGING infectious diseases, MENINGITIS, MEDICAL personnel, SYMPTOMS, PHYSICIANS

Abstract

The article focuses on the Relapsing Fever Infection Manifesting as Aseptic Meningitis, Texas. Topics discussed include Tickborne relapsing fever (TBRF) spirochetes are globally neglected pathogens; and Borrelia turicatae is found in the southwestern and eastern United States into Latin America (1), and high-risk populations include military personnel, outdoor enthusiasts, and impoverished undocumented immigrants.

Published

2021

9. 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

10. The impact of in vitro cultivation on the natural life cycle of the tick-borne relapsing fever spirochete Borrelia turicatae.

Author

Krishnavajhala, Aparna, Armstrong, Brittany A., and Lopez, Job E.

Subjects

RELAPSING fever, SPIROCHETES, BORRELIA, DNA fingerprinting, COMMUNICABLE diseases, TICKS

Abstract

Tick-borne relapsing fever is an infectious disease caused by Borrelia species and are primarily transmitted by Ornithodoros ticks. Prior work indicated that in vitro cultivated spirochetes remain infectious to mice by needle inoculation; however, the impact of laboratory propagation on the pathogens natural life cycle has not been determined. Our current study assessed the effect of serial cultivation on the natural tick-mammalian transmission cycle. First, we evaluated genomic DNA profiles from B. turicatae grown to 30, 60, 120, and 300 generations, and these spirochetes were used to needle inoculate mice. Uninfected nymphal ticks were fed on these mice and acquisition, transstadial maintenance, and subsequent transmission after tick bite was determined. Infection frequencies in mice that were fed upon by ticks colonized with B. turicatae grown to 30, 60, and 120 generations were 100%, 100%, and 30%, respectively. Successful infection of mice by tick feeding was not detected after 120 generations. Quantifying B. turicatae in tick tissues indicated that by 300 generations they no longer colonized the vector. The results indicate that in vitro cultivation significantly affects the establishment of tick colonization and murine infection. This work provides a foundation for the identification of essential genetic elements in the tick-mammalian infectious cycle. [ABSTRACT FROM AUTHOR]

Published

2020

11. Differential Expression of Putative Ornithodoros turicata Defensins Mediated by Tick Feeding.

Author

Armstrong, Brittany A., Kneubehl, Alexander R., Mitchell III, Robert D., Krishnavajhala, Aparna, Teel, Pete D., Pérez de León, Adalberto A., and Lopez, Job E.

Subjects

RELAPSING fever, DEFENSINS, AFRICAN swine fever virus, AFRICAN swine fever, IXODIDAE, AMINO acid sequence, TICKS

Abstract

Additional research on soft ticks in the family Argasidae is needed to bridge the knowledge gap relative to hard ticks of the family Ixodidae; especially, the molecular mechanisms of Ornithodoros biology. Ornithodoros species are vectors of human and animal pathogens that include tick-borne relapsing fever spirochetes and African swine fever virus. Soft tick vector-pathogen interactions involving components of the tick immune response are not understood. Ticks utilize a basic innate immune system consisting of recognition factors and cellular and humoral responses to produce antimicrobial peptides, like defensins. In the present study, we identified and characterized the first putative defensins of Ornithodoros turicata , an argasid tick found primarily in the southwestern United States and regions of Latin America. Four genes (otdA, otdB, otdC , and otdD) were identified through sequencing and their predicted amino acid sequences contained motifs characteristic of arthropod defensins. A phylogenetic analysis grouped these four genes with arthropod defensins, and computational structural analyses further supported the identification. Since pathogens transmitted by O. turicata colonize both the midgut and salivary glands, expression patterns of the putative defensins were determined in these tissues 1 week post engorgement and after molting. Defensin genes up-regulated in the tick midgut 1 week post blood feeding were otdA and otdC , while otdD was up-regulated in the midgut of post-molt ticks. Moreover, otdB and otdD were also up-regulated in the salivary glands of flat post-molt ticks, while otdC was up-regulated within 1 week post blood-feeding. This work is foundational toward additional studies to determine mechanisms of vector competence and pathogen transmission from O. turicata. [ABSTRACT FROM AUTHOR]

Published

2020

12. Isolation and Molecular Characterization of Tick-Borne Relapsing Fever Borrelia Infecting Ornithodoros (Pavlovskyella) verrucosus Ticks Collected in Ukraine.

Author

Filatov, Serhii, Krishnavajhala, Aparna, Armstrong, Brittany A, Kneubehl, Alexander R, Nieto, Nathan C, León, Adalberto A Pérez De, and Lopez, Job E

Subjects

RELAPSING fever, BORRELIA, ANAPLASMA phagocytophilum, DNA, BACTERIAL diseases, RNA, ZOONOSES

Abstract

Background Tick-borne relapsing fever (TBRF) is a neglected zoonotic bacterial disease known to occur on 5 continents. We report a laboratory-acquired case of TBRF caused by Borrelia caucasica , which is endemic in Ukraine and transmitted by Ornithodoros verrucosus ticks. Methods We isolated spirochetes and characterized them by partially sequencing the 16s ribosomal ribonucleic acid (rrs), flagellin (flaB), and deoxyribonucleic acid gyrase (gyrB) genes and conducting a phylogenetic analysis. Results These analyses revealed a close relationship of Ukrainian spirochetes with the Asian TBRF species, Borrelia persica. The taxonomic and nomenclature problems related to insufficient knowledge on the spirochetes and their vectors in the region are discussed. Conclusions Although these findings enhance our understanding of species identities for TBRF Borrelia in Eurasia, further work is required to address the neglected status of TBRF in this part of the world. Public health practitioners should consider TBRF and include the disease into differential diagnosis of febrile illnesses with unknown etiology. [ABSTRACT FROM AUTHOR]

Published

2020

13. Humoral immune response of pigs, Sus scrofa domesticus, upon repeated exposure to blood-feeding by Ornithodoros turicata Duges (Ixodida: Argasidae).

Author

Kim, Hee J., Krishnavajhala, Aparna, Armstrong, Brittany A., Pérez de León, Adalberto A., Filatov, Serhii, Teel, Pete D., and Lopez, Job E.

Subjects

AFRICAN swine fever, HUMORAL immunity, FERAL swine, AFRICAN swine fever virus, SWINE, ENZYME-linked immunosorbent assay, WILD boar, TICKS

Abstract

Background: Ornithodoros turicata is an important vector of both human and veterinary pathogens. One primary concern is the global spread of African swine fever virus and the risk of its re-emergence in the Americas through potential transmission by O. turicata to domestic pigs and feral swine. Moreover, in Texas, African warthogs were introduced into the state for hunting purposes and evidence exists that they are reproducing and have spread to three counties in the state. Consequently, it is imperative to develop strategies to evaluate exposure of feral pigs and African warthogs to O. turicata. Results: We report the development of an animal model to evaluate serological responses of pigs to O. turicata salivary proteins after three exposures to tick feeding. Serological responses were assessed for ~ 120 days by enzyme-linked immunosorbent assay and immunoblotting using salivary gland extracts from O. turicata. Conclusions: Our findings indicate that domestic pigs seroconverted to O. turicata salivary antigens that is foundational toward the development of a diagnostic assay to improve soft tick surveillance efforts. [ABSTRACT FROM AUTHOR]

Published

2020

14. Prevalence and Strains of Colorado Tick Fever Virus in Rocky Mountain Wood Ticks in the Bitterroot Valley, Montana.

Author

Williamson, Brandi N., Fischer, Robert J., Lopez, Job E., Ebihara, Hideki, and Schwan, Tom G.

Subjects

IXODIDAE, BABESIOSIS, RICKETTSIA, ANIMAL culture, DOUBLE-stranded RNA, CASTOR bean tick, VALLEYS, RHIPICEPHALUS

Abstract

The Rocky Mountain wood tick, Dermacentor andersoni, has long been known to transmit human pathogens. Within the Bitterroot Valley, Ravalli County, Montana, these agents include Rickettsia rickettsii, Francisella tularensis, and Colorado tick fever virus (CTFV). Found in the western United States where wood ticks occur, CTFV causes a biphasic, febrile illness in humans and persists in enzootic cycles involving the ticks and small mammals. CTFV belongs to the genus Coltivirus, family Reoviridae, whose genome consists of 12 double-stranded RNA segments. Previous studies revealed the presence of CTFV-infected ticks and rodents in select locations within the valley in the 1960s and 1970s, using animal and cell culture methods for detection. We aimed to determine the range and prevalence of the virus in adult questing ticks throughout the valley using molecular tools and to examine the genomic variation between virus strains. Adult D. andersoni ticks were collected during 2002–2003 and 2009–2013. RNA extractions and reverse transcription-polymerase chain reaction were performed on 921 ticks, of which 61 ticks were positive for CTFV, resulting in a 6.6% prevalence of infection. Four genetic loci, one from each of the segments 9, 10, 11, and 12, within the viral genome were sequenced. Reassortment was detected between CTFV sequence strains within the valley. This study confirmed the prevalence of CTFV in D. andersoni ticks within the Bitterroot Valley, which has remained at levels found in the 1950s and 60s. Additional CTFV sequences were obtained and evidence of reassortment was observed between strains within the valley. [ABSTRACT FROM AUTHOR]

Published

2019

15. Assessing the Contribution of an HtrA Family Serine Protease During Borrelia turicatae Mammalian Infection.

Author

Jackson-Litteken, Clay D., Zalud, Amanda K., Ratliff, C. Tyler, Latham, Jacob I., Bourret, Travis J., Lopez, Job E., and Blevins, Jon S.

Subjects

BORRELIA, RELAPSING fever, LYME disease, SERINE, BACTERIAL diseases, HEAT shock proteins, OPERONS

Abstract

Tick-borne relapsing fever (TBRF), characterized by recurring febrile episodes, is globally distributed and among the most common bacterial infections in some African countries. Despite the public health concern that this disease represents, little is known regarding the virulence determinants required by TBRF Borrelia during infection. Because the chromosomes of TBRF Borrelia show extensive colinearity with those of Lyme disease (LD) Borrelia , the exceptions represent unique genes encoding proteins that are potentially essential to the disparate enzootic cycles of these two groups of spirochetes. One such exception is a gene encoding an HtrA family protease, BtpA, that is present in TBRF Borrelia , but not in LD spirochetes. Previous work suggested that btpA orthologs may be important for resistance to stresses faced during mammalian infection. Herein, proteomic analyses of the TBRF spirochete, Borrelia turicatae , demonstrated that BtpA, as well as proteins encoded by adjacent genes in the B. turicatae genome, were produced in response to culture at mammalian body temperature, suggesting a role in mammalian infection. Further, transcriptional analyses revealed that btpA was expressed with the genes immediately upstream and downstream as part of an operon. To directly assess if btpA is involved in resistance to environmental stresses, btpA deletion mutants were generated. btpA mutants demonstrated no growth defect in response to heat shock, but were more sensitive to oxidative stress produced by t- butyl peroxide compared to wild-type B. turicatae. Finally, btpA mutants were fully infectious in a murine relapsing fever (RF) infection model. These results indicate that BtpA is either not required for mammalian infection, or that compensatory mechanisms exist in TBRF spirochetes to combat environmental stresses encountered during mammalian infection in the absence of BtpA. [ABSTRACT FROM AUTHOR]

Published

2019

16. Case report: A retrospective serological analysis indicating human exposure to tick-borne relapsing fever spirochetes in Sonora, Mexico.

Author

Vázquez-Guerrero, Edwin, Adan-Bante, Norma P., Mercado-Uribe, Mónica C., Hernández-Rodríguez, César, Villa-Tanaca, Lourdes, Lopez, Job E., and Ibarra, J. Antonio

Subjects

RELAPSING fever, SPIROCHETES, LYME disease, MEDICAL microbiology, MOLECULAR biology

Abstract

The article presents a case study of a 45-year-old woman who was admitted for hospitalization after experiencing various symptoms including fever, arthralgias and diaphoresis. A retrospective evaluation of the patient's history was conducted and her clinical summary resulted with the suspicion of a tick-borne relapsing fever (TBRF) is offered. The serological analysis suggests that the patient was exposed to TBRF spirochetes through Borrelia turicatae.

Published

2019

17. Case report: A retrospective serological analysis indicating human exposure to tick-borne relapsing fever spirochetes in Sonora, Mexico.

Author

Vázquez-Guerrero, Edwin, Adan-Bante, Norma P., Mercado-Uribe, Mónica C., Hernández-Rodríguez, César, Villa-Tanaca, Lourdes, Lopez, Job E., and Ibarra, J. Antonio

Subjects

SPIROCHETES, RETROSPECTIVE studies, FATIGUE (Physiology), RELAPSING fever, DISEASE prevalence, TICK infestations, BLOOD sampling

Abstract

A case report from Sonora, Mexico describes a 45-year-old woman who presented with symptoms including fever, rash, and fatigue. Despite being serologically negative for common diseases, the patient was diagnosed with tick-borne relapsing fever (TBRF) based on the observation of spirochetes in her blood sample. The patient was treated with doxycycline and recovered. The study highlights the need for increased surveillance and diagnostic tools for TBRF in Mexico, as well as further research on the prevalence and emergence of the disease. [Extracted from the article]

Published

2019

18. Editorial: Biological drivers of vector--pathogen interactions -- vol II.

Author

Rego, Ryan O. M., Lopez, Job E., and Cabesas-Cruz, Alejandro

Subjects

DENGUE, CASTOR bean tick, PATHOGENIC microorganisms, FAVA bean

Published

2023

19. Editorial: Biological Drivers of Vector–Pathogen Interactions.

Author

Rego, Ryan O. M., Lopez, Job E., and Cabezas-Cruz, Alejandro

Subjects

AFRICAN swine fever, AFRICAN swine fever virus

Published

2020

20. The relapsing fever spirochete Borrelia turicatae persists in the highly oxidative environment of its soft‐bodied tick vector.

Author

Bourret, Travis J., Boyle, William K., Zalud, Amanda K., Valenzuela, Jesus G., Oliveira, Fabiano, and Lopez, Job E.

Subjects

BORRELIA, RELAPSING fever, OXIDIZING agents, GLUTATHIONE peroxidase, REVERSE transcriptase polymerase chain reaction

Abstract

The relapsing fever spirochete Borrelia turicatae possesses a complex life cycle in its soft‐bodied tick vector, Ornithodoros turicata. Spirochetes enter the tick midgut during a blood meal, and, during the following weeks, spirochetes disseminate throughout O. turicata. A population persists in the salivary glands allowing for rapid transmission to the mammalian hosts during tick feeding. Little is known about the physiological environment within the salivary glands acini in which B. turicatae persists. In this study, we examined the salivary gland transcriptome of O. turicata ticks and detected the expression of 57 genes involved in oxidant metabolism or antioxidant defences. We confirmed the expression of five of the most highly expressed genes, including glutathione peroxidase (gpx), thioredoxin peroxidase (tpx), manganese superoxide dismutase (sod‐1), copper‐zinc superoxide dismutase (sod‐2), and catalase (cat) by reverse‐transcriptase droplet digital polymerase chain reaction (RT‐ddPCR). We also found distinct differences in the expression of these genes when comparing the salivary glands and midguts of unfed O. turicata ticks. Our results indicate that the salivary glands of unfed O. turicata nymphs are highly oxidative environments where reactive oxygen species (ROS) predominate, whereas midgut tissues comprise a primarily nitrosative environment where nitric oxide synthase is highly expressed. Additionally, B. turicatae was found to be hyperresistant to ROS compared with the Lyme disease spirochete Borrelia burgdorferi, suggesting it is uniquely adapted to the highly oxidative environment of O. turicata salivary gland acini. [ABSTRACT FROM AUTHOR]

Published

2019

21. Detection of Tickborne Relapsing Fever Spirochete, Austin, Texas, USA.

Author

Bissett, Jack D., Ledet, Suzanne, Krishnavajhala, Aparna, Armstrong, Brittany A., Klioueva, Anna, Sexton, Christopher, Replogle, Adam, Schriefer, Martin E., and Lopez, Job E.

Subjects

FEBRILE seizures, TICK-borne diseases, BORRELIA, ORNITHODOROS turicata, CHROMOSOMES

Abstract

In March 2017, a patient became febrile within 4 days after visiting a rustic conference center in Austin, Texas, USA, where Austin Public Health suspected an outbreak of tickborne relapsing fever a month earlier. Evaluation of a patient blood smear and molecular diagnostic assays identified Borrelia turicatae as the causative agent. We could not gain access to the property to collect ticks. Thus, we focused efforts at a nearby public park, <1 mile from the suspected exposure site. We trapped Ornithodoros turicata ticks from 2 locations in the park, and laboratory evaluation resulted in cultivation of 3 B. turicatae isolates. Multilocus sequencing of 3 chromosomal loci (flaB, rrs, and gyrB) indicated that the isolates were identical to those of B. turicatae 91E135 (a tick isolate) and BTE5EL (a human isolate). We identified the endemicity of O. turicata ticks and likely emergence of B. turicatae in this city. [ABSTRACT FROM AUTHOR]

Published

2018

22. Seroprevalence for the tick-borne relapsing fever spirochete Borrelia turicatae among small and medium sized mammals of Texas.

Author

Armstrong, Brittany A., Kneubehl, Alexander, Krishnavajhala, Aparna, Wilder, Hannah K., Boyle, William, Wozniak, Edward, Phillips, Carson, Hollywood, Kristen, Murray, Kristy O., Donaldson, Taylor G., Teel, Pete D., Waldrup, Ken, and Lopez, Job E.

Subjects

SEROPREVALENCE, TICK control, TICK infestations, ANIMAL diseases, VETERINARY medicine

Abstract

Background: In low elevation arid regions throughout the Southern United States, Borrelia turicatae is the principal agent of tick-borne relapsing fever. However, endemic foci and the vertebrate hosts involved in the ecology of B. turicatae remain undefined. Experimental infection studies suggest that small and medium sized mammals likely maintain B. turicatae in nature, while the tick vector is a long-lived reservoir. Methodology/principal findings: Serum samples from wild caught rodents, raccoons, and wild and domestic canids from 23 counties in Texas were screened for prior exposure to B. turicatae. Serological assays were performed using B. turicatae protein lysates and recombinant Borrelia immunogenic protein A (rBipA), a diagnostic protein that is unique to RF spirochetes and may be a species-specific antigen. Conclusions/significance: Serological responses to B. turicatae were detected from 24 coyotes, one gray fox, two raccoons, and one rodent from six counties in Texas. These studies indicate that wild canids and raccoons were exposed to B. turicatae and are likely involved in the pathogen’s ecology. Additionally, more work should focus on evaluating rodent exposure to B. turicatae and the role of these small mammals in the pathogen’s maintenance in nature. [ABSTRACT FROM AUTHOR]

Published

2018

23. Synanthropic Mammals as Potential Hosts of Tick-Borne Pathogens in Panama.

Author

Bermúdez, Sergio E., Gottdenker, Nicole, Krishnvajhala, Aparna, Fox, Amy, Wilder, Hannah K., González, Kadir, Smith, Diorene, López, Marielena, Perea, Milixa, Rigg, Chystrie, Montilla, Santiago, Calzada, José E., Saldaña, Azael, Caballero, Carlos M., and Lopez, Job E.

Subjects

TICK-borne diseases in animals, ZOONOSES, HOSTS (Biology), IMMUNOFLUORESCENCE

Abstract

Synanthropic wild mammals can be important hosts for many vector-borne zoonotic pathogens. The aim of this study was determine the exposure of synanthropic mammals to two types of tick-borne pathogens in Panama, spotted fever group Rickettsia (SFGR) and Borrelia relapsing fever (RF) spirochetes. One hundred and thirty-one wild mammals were evaluated, including two gray foxes, two crab-eating foxes (from zoos), four coyotes, 62 opossum and 63 spiny rats captured close to rural towns. To evaluate exposure to SFGR, serum samples from the animals were tested by indirect immunofluorescence assay (IFA) using Rickettsia rickettsii and Candidatus Rickettsia amblyommii antigen. Immunoblotting was performed using Borrelia turicatae protein lysates and rGlpQ, to assess infection caused by RF spirochetes. One coyote (25%) and 27 (43%) opossums showed seroreactivity to SFGR. Of these opossums, 11 were seroreactive to C. R. amblyommii. Serological reactivity was not detected to B. turicatae in mammal samples. These findings may reflect a potential role of both mammals in the ecology of tick-borne pathogens in Panama. [ABSTRACT FROM AUTHOR]

Published

2017

24. One Health Interactions of Chagas Disease Vectors, Canid Hosts, and Human Residents along the Texas-Mexico Border.

Author

Garcia, Melissa N., O’Day, Sarah, Fisher-Hoch, Susan, Gorchakov, Rodion, Patino, Ramiro, Feria Arroyo, Teresa P., Laing, Susan T., Lopez, Job E., Ingber, Alexandra, Jones, Kathryn M., and Murray, Kristy O.

Subjects

CHAGAS' disease, DISEASE vectors, DILATED cardiomyopathy, CHAGAS' disease treatment, DISEASE prevalence, INFECTIOUS disease transmission

Abstract

Background: Chagas disease (Trypanosoma cruzi infection) is the leading cause of non-ischemic dilated cardiomyopathy in Latin America. Texas, particularly the southern region, has compounding factors that could contribute to T. cruzi transmission; however, epidemiologic studies are lacking. The aim of this study was to ascertain the prevalence of T. cruzi in three different mammalian species (coyotes, stray domestic dogs, and humans) and vectors (Triatoma species) to understand the burden of Chagas disease among sylvatic, peridomestic, and domestic cycles. Methodology/Principal Findings: To determine prevalence of infection, we tested sera from coyotes, stray domestic dogs housed in public shelters, and residents participating in related research studies and found 8%, 3.8%, and 0.36% positive for T. cruzi, respectively. PCR was used to determine the prevalence of T. cruzi DNA in vectors collected in peridomestic locations in the region, with 56.5% testing positive for the parasite, further confirming risk of transmission in the region. Conclusions/Significance: Our findings contribute to the growing body of evidence for autochthonous Chagas disease transmission in south Texas. Considering this region has a population of 1.3 million, and up to 30% of T. cruzi infected individuals developing severe cardiac disease, it is imperative that we identify high risk groups for surveillance and treatment purposes. [ABSTRACT FROM AUTHOR]

Published

2016

25. Fleas and trypanosomes of peridomestic small mammals in sub-Saharan Mali.

Author

Schwan, Tom G., Lopez, Job E., Safronetz, David, Anderson, Jennifer M., Fischer, Robert J., Maïga, Ousmane, and Sogoba, Nafomon

Subjects

FLEAS, ECTOPARASITES, TICK-borne diseases, KINETOPLASTIDA, DISEASE vectors

Abstract

Background: Fleas are obligate blood-feeding ectoparasites and vectors of several bacterial zoonotic pathogens as well as trypanosomes that parasitize rodents and other small mammals. During investigations of tick- and rodent-borne diseases in Mali, West Africa, we included fleas and rodent-borne trypanosomes, both of which are poorly known in this country, but are attracting greater public health interest. Methods: Small mammals were captured in 20 Malian villages from December 2007 to October 2011. Fleas were collected and identified to species, and thin blood smears were prepared, stained and examined microscopically for trypanosomes. Results: We captured 744 small mammals, 68 (9.1 %) of which yielded fleas. Two species of fleas, Xenopsylla cheopis and Xenopsylla nubica, were collected from six species of rodents and one species of shrew. Multimammate rats, Mastomys natalensis, were hosts for 58.5 % of all fleas collected. Xenopsylla cheopis was found in the moister southern savannah while X. nubica was mostly restricted to the drier Sahel. Trypanosomes were found in 3 % of 724 blood smears, although 91 % of parasitemic animals originated from two villages where black rats (Rattus rattus) and M. natalensis were the primary hosts and X. cheopis the dominant flea. The trypanosomes were morphologically consistent with the Trypanosoma (Herpetosoma) lewisi group, flea-borne hemoflagellates that parasitize domestic rats. Conclusions: Xenopsylla cheopis and trypanosomes parasitize peridomestic rats that commingle with people in southern Mali. Given the increasing awareness of flea-borne trypanosomes as possible human pathogens, we hope our findings will stimulate future investigators to examine the potential public health significance of flea-borne trypanosomosis in West Africa. [ABSTRACT FROM AUTHOR]

Published

2016

26. Recombination Is a Major Driving Force of Genetic Diversity in the Anaplasmataceae Ehrlichia ruminantium.

Author

Nídia Cangi, Gordon, Jonathan L., Bournez, Laure, Pinarello, Valérie, Aprelon, Rosalie, Huber, Karine, Lefrançois, Thierry, Neves, Luís, Meyer, Damien F., Vachiéry, Nathalie, Xue-jie Yu, Pearson, Talima, and Lopez, Job E.

Subjects

ANAPLASMATACEAE, BACTERIAL genetics, BACTERIAL diversity, PHYLOGEOGRAPHY, BACTERIA phylogeny

Abstract

The disease, Heartwater, caused by the Anaplasmataceae E. ruminantium, represents a major problem for tropical livestock and wild ruminants. Up to now, no effective vaccine has been available due to a limited cross protection of vaccinal strains on field strains and a high genetic diversity of Ehrlichia ruminantium within geographical locations. To address this issue, we inferred the genetic diversity and population structure of 194 E. ruminantium isolates circulating worldwide using Multilocus Sequence Typing based on lipA, lipB, secY, sodB, and sucA genes. Phylogenetic trees and networks were generated using BEAST and SplitsTree, respectively, and recombination between the different genetic groups was tested using the PHI test for recombination. Our study reveals the repeated occurrence of recombination between E. ruminantium strains, suggesting that it may occur frequently in the genome and has likely played an important role in the maintenance of genetic diversity and the evolution of E. ruminantium. Despite the unclear phylogeny and phylogeography, E. ruminantium isolates are clustered into two main groups: Group 1 (West Africa) and a Group 2 (worldwide) which is represented by West, East, and Southern Africa, Indian Ocean, and Caribbean strains. Some sequence types are common between West Africa and Caribbean and between Southern Africa and Indian Ocean strains. These common sequence types highlight two main introduction events due to the movement of cattle: from West Africa to Caribbean and from Southern Africa to the Indian Ocean islands. Due to the long branch lengths between Group 1 and Group 2, and the propensity for recombination between these groups, it seems that the West African clusters of Subgroup 2 arrived there more recently than the original divergence of the two groups, possibly with the original waves of domesticated ruminants that spread across the African continent several thousand years ago. [ABSTRACT FROM AUTHOR]

Published

2016

27. Transcriptional Profiling the 150 kb Linear Megaplasmid of Borrelia turicatae Suggests a Role in Vector Colonization and Initiating Mammalian Infection.

Author

Wilder, Hannah K., Raffel, Sandra J., Barbour, Alan G., Porcella, Stephen F., Sturdevant, Daniel E., Vaisvil, Benjamin, Kapatral, Vinayak, Schmitt, Daniel P., Schwan, Tom G., and Lopez, Job E.

Subjects

TICK-borne diseases, SPIROCHETES, PLASMIDS, DISEASE vectors, MAMMAL diseases, GENOMES, DISEASE relapse

Abstract

Adaptation is key for survival as vector-borne pathogens transmit between the arthropod and vertebrate, and temperature change is an environmental signal inducing alterations in gene expression of tick-borne spirochetes. While plasmids are often associated with adaptation, complex genomes of relapsing fever spirochetes have hindered progress in understanding the mechanisms of vector colonization and transmission. We utilized recent advances in genome sequencing to generate the most complete version of the Borrelia turicatae 150 kb linear megaplasmid (lp150). Additionally, a transcriptional analysis of open reading frames (ORFs) in lp150 was conducted and identified regions that were up-regulated during in vitro cultivation at tick-like growth temperatures (22°C), relative to bacteria grown at 35°C and infected murine blood. Evaluation of the 3’ end of lp150 identified a cluster of ORFs that code for putative surface lipoproteins. With a microbe’s surface proteome serving important roles in pathogenesis, we confirmed the ORFs expression in vitro and in the tick compared to spirochetes infecting murine blood. Transcriptional evaluation of lp150 indicates the plasmid likely has essential roles in vector colonization and/or initiating mammalian infection. These results also provide a much needed transcriptional framework to delineate the molecular mechanisms utilized by relapsing fever spirochetes during their enzootic cycle. [ABSTRACT FROM AUTHOR]

Published

2016

28. Assessment of the Geographic Distribution of Ornithodoros turicata (Argasidae): Climate Variation and Host Diversity.

Author

Donaldson, Taylor G., Pèrez de León, Adalberto A., Li, Andrew I., Castro-Arellano, Ivan, Wozniak, Edward, Boyle, William K., Hargrove, Reid, Wilder, Hannah K., Kim, Hee J., Teel, Pete D., and Lopez, Job E.

Subjects

ORNITHODOROS turicata, CLIMATE change, ARGASIDAE, AFRICAN swine fever virus, PATHOGENIC microorganisms, METEOROLOGICAL precipitation

Abstract

Background: Ornithodoros turicata is a veterinary and medically important argasid tick that is recognized as a vector of the relapsing fever spirochete Borrelia turicatae and African swine fever virus. Historic collections of O. turicata have been recorded from Latin America to the southern United States. However, the geographic distribution of this vector is poorly understood in relation to environmental variables, their hosts, and consequently the pathogens they transmit. Methodology: Localities of O. turicata were generated by performing literature searches, evaluating records from the United States National Tick Collection and the Symbiota Collections of Arthropods Network, and by conducting field studies. Maximum entropy species distribution modeling (Maxent) was used to predict the current distribution of O. turicata. Vertebrate host diversity and GIS analyses of their distributions were used to ascertain the area of shared occupancy of both the hosts and vector. Conclusions and Significance: Our results predicted previously unrecognized regions of the United States with habitat that may maintain O. turicata and could guide future surveillance efforts for a tick capable of transmitting high–consequence pathogens to human and animal populations. [ABSTRACT FROM AUTHOR]

Published

2016

29. Vaccination with the variable tick protein of the relapsing fever spirochete Borrelia hermsii protects mice from infection by tick-bite.

Author

Krajacich, Benjamin J., Lopez, Job E., Raffel, Sandra J., and Schwan, Tom G.

Subjects

VACCINATION, TICKS, RELAPSING fever, PROTEINS, ORNITHODOROS hermsi, SPIROCHETES

Abstract

Background: Tick-borne relapsing fevers of humans are caused by spirochetes that must adapt to both warm-blooded vertebrates and cold-blooded ticks. In western North America, most human cases of relapsing fever are caused by Borrelia hermsii, which cycles in nature between its tick vector Ornithodoros hermsi and small mammals such as tree squirrels and chipmunks. These spirochetes alter their outer surface by switching off one of the bloodstreamassociated variable major proteins (Vmps) they produce in mammals, and replacing it with the variable tick protein (Vtp) following their acquisition by ticks. Based on this reversion to Vtp in ticks, we produced experimental vaccines comprised on this protein and tested them in mice challenged by infected ticks. Methods: The vtp gene from two isolates of B. hermsii that encoded antigenically distinct types of proteins were cloned, expressed, and the recombinant Vtp proteins were purified and used to vaccinate mice. Ornithodoros hermsi ticks that were infected with one of the two strains of B. hermsii from which the vtp gene originated were used to challenge mice that received one of the two Vtp vaccines or only adjuvant. Mice were then followed for infection and seroconversion. Results: The Vtp vaccines produced protective immune responses in mice challenged with O. hermsi ticks infected with B. hermsii. However, polymorphism in Vtp resulted in mice being protected only from the spirochete strain that produced the same Vtp used in the vaccine; mice challenged with spirochetes producing the antigenically different Vtp than the vaccine succumbed to infection. Conclusions: We demonstrate that by having knowledge of the phenotypic changes made by B. hermsii as the spirochetes are acquired by ticks from infected mammals, an effective vaccine was developed that protected mice when challenged with infected ticks. However, the Vtp vaccines only protected mice from infection when challenged with that strain producing the identical Vtp. A vaccine containing multiple Vtp types may have promise as an oral vaccine for wild mammals if applied to geographic settings such as small islands where the mammal diversity is low and the Vtp types in the B. hermsii population are defined. [ABSTRACT FROM AUTHOR]

Published

2015

30. Case Report: A Retrospective Serological Analysis Indicating Human Exposure to Tick-Borne Relapsing Fever Spirochetes in Texas.

Author

Wilder, Hannah K., Wozniak, Edward, Huddleston, Elizabeth, Tata, Sri Ramya, Fitzkee, Nicholas C., and Lopez, Job E.

Subjects

SPIROCHETES, SERODIAGNOSIS, RETROSPECTIVE studies, RELAPSING fever, IRIDOCYCLITIS, OUTDOOR recreation, UVEITIS

Abstract

This article presents a case report of a Caucasian male from Texas who became ill with symptoms including fever, chills, uveitis, headache, and weakness. The patient had a history of outdoor activity and numerous insect bites, but the specific arthropods responsible were not found. After antibiotic treatment, a retrospective evaluation led to suspicion of tick-borne relapsing fever borreliosis. Serological testing using two diagnostic antigens indicated exposure to relapsing fever spirochetes. The article highlights the challenges of diagnosing and studying tick-borne relapsing fever borreliosis and identifies at-risk populations. [Extracted from the article]

Published

2015

31. Case Report: A Retrospective Serological Analysis Indicating Human Exposure to Tick-Borne Relapsing Fever Spirochetes in Texas.

Author

Wilder, Hannah K., Wozniak, Edward, Huddleston, Elizabeth, Tata, Sri Ramya, Fitzkee, Nicholas C., and Lopez, Job E.

Subjects

SPIROCHETES, UVEITIS, TICKS as carriers of disease, PHOSPHODIESTERASES, BORRELIA genetics, ANTIBIOTICS

Abstract

The article presents a case study of a Caucasian male with an extensive history of outdoor activity working with sheep, goats and exotic game who became ill with fever, chills, uveitis, headache and retrobulbar pain. A retrospective serological analysis revealed human exposure to tick-borne relapsing fever spirochetes, recombinant glycerophosphodiester phosphodiesterase (rGlpQ) and Borrelia immunogenic protein A (rBipA). The patient's condition improved following antibiotic treatment.

Published

2015

32. Immune Resistance by Relapsing Fever Spirochetes.

Author

Embers, Monica E. and Lopez, Job E.

Published

2012

33. Real-Time Monitoring of Disease Progression in Rhesus Macaques Infected With Borrelia turicatae by Tick Bite.

Author

Lopez, Job E., Vinet-Oliphant, Heather, Wilder, Hannah K., Brooks, Christopher P., Grasperge, Britton J., Morgan, Timothy W., Stuckey, Kerstan J., and Embers, Monica E.

Subjects

BORRELIA diseases, CERCOPITHECIDAE, MACAQUES, ROCKY Mountain spotted fever, POLYMERASE chain reaction

Abstract

The hallmark of disease caused by tick- and louse-borne relapsing fever due to Borrelia infection is cyclic febrile episodes, which in humans results in severe malaise and may lead to death. To evaluate the pathogenesis of relapsing fever due to spirochetes in an animal model closely related to humans, disease caused by Borrelia turicatae after tick bite was compared in 2 rhesus macaques in which radiotelemetry devices that recorded body temperatures in 24-hour increments were implanted. The radiotelemetry devices enabled real-time acquisition of core body temperatures and changes in heart rates and electrocardiogram intervals for 28 consecutive days without the need to constantly manipulate the animals. Blood specimens were also collected from all animals for 14 days after tick bite, and spirochete densities were assessed by quantitative polymerase chain reaction. The complexity of disease caused by relapsing-fever spirochetes was demonstrated in the nonhuman primates monitored in real time. The animals experienced prolonged episodes of hyperthermia and hypothermia; disruptions in their diurnal patterns and repolarization of the heart were also observed. This is the first report of the characterizing disease progression with continuous monitoring in an animal model of relapsing fever due to Borrelia infection. [ABSTRACT FROM AUTHOR]

Published

2014

34. Transmission Dynamics of Borrelia turicatae from the Arthropod Vector.

Author

Boyle, William K., Wilder, Hannah K., Lawrence, Amanda M., and Lopez, Job E.

Subjects

BABESIA, ARTHROPOD vectors, INFECTIOUS disease transmission, RELAPSING fever, BORRELIA, LIFE cycles (Biology)

Abstract

Background: With the global distribution, morbidity, and mortality associated with tick and louse-borne relapsing fever spirochetes, it is important to understand the dynamics of vector colonization by the bacteria and transmission to the host. Tick-borne relapsing fever spirochetes are blood-borne pathogens transmitted through the saliva of soft ticks, yet little is known about the transmission capability of these pathogens during the relatively short bloodmeal. This study was therefore initiated to understand the transmission dynamics of the relapsing fever spirochete Borrelia turicatae from the vector Ornithodoros turicata, and the subsequent dissemination of the bacteria upon entry into murine blood. Methodology/Principal Findings: To determine the minimum number of ticks required to transmit spirochetes, one to three infected O. turicata were allowed to feed to repletion on individual mice. Murine infection and dissemination of the spirochetes was evaluated by dark field microscopy of blood, quantitative PCR, and immunoblotting against B. turicatae protein lysates and a recombinant antigen, the Borrelia immunogenic protein A. Transmission frequencies were also determined by interrupting the bloodmeal 15 seconds after tick attachment. Scanning electron microscopy (SEM) was performed on infected salivary glands to detect spirochetes within acini lumen and excretory ducts. Furthermore, spirochete colonization and dissemination from the bite site was investigated by feeding infected O. turicata on the ears of mice, removing the attachment site after engorment, and evaluating murine infection. Conclusion/Significance: Our findings demonstrated that three ticks provided a sufficient infectious dose to infect nearly all animals, and B. turicatae was transmitted within seconds of tick attachment. Spirochetes were also detected in acini lumen of salivary glands by SEM. Upon host entry, B. turicatae did not require colonization of the bite site to establish murine infection. These results suggest that once B. turicatae colonizes the salivary glands the spirochetes are preadapted for rapid entry into the mammal. Author Summary: Relapsing fever spirochetes cause recurrent febrile episodes, rigors, nausea, vomiting, malaise, and pregnancy complications, and are a leading cause of hospital admissions in regions of Africa. Routes of pathogen transmission include crushed human body lice and feces, or through bites by Ornithodoros spp. of ticks. The life cycle of Ornithodoros turicatae, the vector of Borrelia turicatae, includes over six nymphal stages, upwards of a ten year life span, and a bloodmeal that is completed within an hour. We investigated B. turicatae transmission from the tick vector and assessed the rapidity of spirochete entry into the mammal and dissemination in the blood. Salivary glands from infected ticks were also evaluated to visualize B. turicatae within the tissues to determine spirochete localization. We conclude that given the transmission dynamics of B. turicatae, it may be important to target conserved surface proteins that relapsing fever spirochetes produce in the salivary glands in order to develop preventative measures against the pathogens. [ABSTRACT FROM AUTHOR]

Published

2014

35. Transmission Dynamics of Borrelia turicatae from the Arthropod Vector.

Author

Boyle, William K., Wilder, Hannah K., Lawrence, Amanda M., and Lopez, Job E.

Subjects

BORRELIA, ARTHROPOD vectors, SPIROCHETES, ARGASIDAE, LABORATORY mice, MICROSCOPY, SCANNING electron microscopy

Abstract

Background: With the global distribution, morbidity, and mortality associated with tick and louse-borne relapsing fever spirochetes, it is important to understand the dynamics of vector colonization by the bacteria and transmission to the host. Tick-borne relapsing fever spirochetes are blood-borne pathogens transmitted through the saliva of soft ticks, yet little is known about the transmission capability of these pathogens during the relatively short bloodmeal. This study was therefore initiated to understand the transmission dynamics of the relapsing fever spirochete Borrelia turicatae from the vector Ornithodoros turicata, and the subsequent dissemination of the bacteria upon entry into murine blood. Methodology/Principal Findings: To determine the minimum number of ticks required to transmit spirochetes, one to three infected O. turicata were allowed to feed to repletion on individual mice. Murine infection and dissemination of the spirochetes was evaluated by dark field microscopy of blood, quantitative PCR, and immunoblotting against B. turicatae protein lysates and a recombinant antigen, the Borrelia immunogenic protein A. Transmission frequencies were also determined by interrupting the bloodmeal 15 seconds after tick attachment. Scanning electron microscopy (SEM) was performed on infected salivary glands to detect spirochetes within acini lumen and excretory ducts. Furthermore, spirochete colonization and dissemination from the bite site was investigated by feeding infected O. turicata on the ears of mice, removing the attachment site after engorment, and evaluating murine infection. Conclusion/Significance: Our findings demonstrated that three ticks provided a sufficient infectious dose to infect nearly all animals, and B. turicatae was transmitted within seconds of tick attachment. Spirochetes were also detected in acini lumen of salivary glands by SEM. Upon host entry, B. turicatae did not require colonization of the bite site to establish murine infection. These results suggest that once B. turicatae colonizes the salivary glands the spirochetes are preadapted for rapid entry into the mammal. [ABSTRACT FROM AUTHOR]

Published

2014

36. Geographic Distribution and Genetic Characterization of Lassa Virus in Sub-Saharan Mali.

Author

Safronetz, David, Sogoba, Nafomon, Lopez, Job E., Maiga, Ousmane, Dahlstrom, Eric, Zivcec, Marko, Feldmann, Friederike, Haddock, Elaine, Fischer, Robert J., Anderson, Jennifer M., Munster, Vincent J., Branco, Luis, Garry, Robert, Porcella, Stephen F., Schwan, Tom G., and Feldmann, Heinz

Subjects

LASSA fever, NUCLEOTIDE sequencing, BORDERLANDS, MULTIPLE organ failure, VIRAL shedding, DISEASE incidence

Abstract

Background: Lassa fever is an acute viral illness characterized by multi-organ failure and hemorrhagic manifestations. Lassa fever is most frequently diagnosed in Nigeria, Sierra Leone, Liberia, and Guinea, although sporadic cases have been recorded in other West African countries, including Mali. The etiological agent of Lassa fever is Lassa virus (LASV), an Arenavirus which is maintained in nature and frequently transmitted to humans by Mastomys natalensis. The purpose of this study was to better define the geographic distribution of LASV-infected rodents in sub-Saharan Mali. Methodologies/Principal Findings: Small mammals were live-trapped at various locations across Mali for the purpose of identifying potential zoonotic pathogens. Serological and molecular assays were employed and determined LASV infected rodents were exclusively found in the southern Mali near the border of Côte d'Ivoire. Overall, 19.4% of Mastomys natalensis sampled in this region had evidence of LASV infection, with prevalence rates for individual villages ranging from 0 to 52%. Full-length genomic sequences were determined using high throughput sequencing methodologies for LASV isolates generated from tissue samples of rodents collected in four villages and confirmed the phylogenetic clustering of Malian LASV with strain AV. Conclusions/Significance: The risk of human infections with LASV is greatest in villages in southern Mali. Lassa fever should be considered in the differential diagnosis for febrile individuals and appropriate diagnostic techniques need to be established to determine the incidence of infection and disease in these regions. Author Summary: Lassa fever is an acute infection associated with hemorrhagic manifestations and multi-organ failure in West Africa. The etiological agent of Lassa fever is Lassa virus (LASV), a rodent-borne arenavirus, which is maintained in nature and transmitted to humans by the multimammate rat, Mastomys natalensis. Despite the ubiquitous nature of the rodent reservoir, LASV-infected animals are most commonly documented in Nigeria, Sierra Leone, Guinea and Liberia. These four countries represent the historic endemic region for Lassa fever, although there is increasing evidence of sporadic cases occurring in other West African nations including Mali. To better define the geographic distribution of LASV-infected rodents in Mali, we tested samples from small animals collected at 27 sites across the country. Although M. natalensis was the predominant rodent species in the majority of villages, evidence of LASV infection was exclusively found in southern Mali, where overall nearly 20% of rodents were positive. The full genomic sequence was determined for five isolates and confirmed LASV in Mali is closely related to strain AV. We conclude that there is a risk of human exposure to LASV in villages in southern Mali and Lassa fever should be considered in the differential diagnosis for acutely ill, febrile patients. [ABSTRACT FROM AUTHOR]

Published

2013

37. Geographic Distribution and Genetic Characterization of Lassa Virus in Sub-Saharan Mali.

Author

Safronetz, David, Sogoba, Nafomon, Lopez, Job E., Maiga, Ousmane, Dahlstrom, Eric, Zivcec, Marko, Feldmann, Friederike, Haddock, Elaine, Fischer, Robert J., Anderson, Jennifer M., Munster, Vincent J., Branco, Luis, Garry, Robert, Porcella, Stephen F., Schwan, Tom G., and Feldmann, Heinz

Subjects

LASSA fever, LABORATORY rodents, GENOMES, DIFFERENTIAL diagnosis

Abstract

Background: Lassa fever is an acute viral illness characterized by multi-organ failure and hemorrhagic manifestations. Lassa fever is most frequently diagnosed in Nigeria, Sierra Leone, Liberia, and Guinea, although sporadic cases have been recorded in other West African countries, including Mali. The etiological agent of Lassa fever is Lassa virus (LASV), an Arenavirus which is maintained in nature and frequently transmitted to humans by Mastomys natalensis. The purpose of this study was to better define the geographic distribution of LASV-infected rodents in sub-Saharan Mali. Methodologies/Principal Findings: Small mammals were live-trapped at various locations across Mali for the purpose of identifying potential zoonotic pathogens. Serological and molecular assays were employed and determined LASV infected rodents were exclusively found in the southern Mali near the border of Côte d'Ivoire. Overall, 19.4% of Mastomys natalensis sampled in this region had evidence of LASV infection, with prevalence rates for individual villages ranging from 0 to 52%. Full-length genomic sequences were determined using high throughput sequencing methodologies for LASV isolates generated from tissue samples of rodents collected in four villages and confirmed the phylogenetic clustering of Malian LASV with strain AV. Conclusions/Significance: The risk of human infections with LASV is greatest in villages in southern Mali. Lassa fever should be considered in the differential diagnosis for febrile individuals and appropriate diagnostic techniques need to be established to determine the incidence of infection and disease in these regions. [ABSTRACT FROM AUTHOR]

Published

2013

38. Development of Genetic System to Inactivate a Borrelia turicatae Surface Protein Selectively Produced within the Salivary Glands of the Arthropod Vector.

Author

Lopez, Job E., Wilder, Hannah K., Hargrove, Reid, Brooks, Christopher P., Peterson, Karin E., Beare, Paul A., Sturdevant, Daniel E., Nagarajan, Vijayaraj, Raffel, Sandra J., and Schwan, Tom G.

Subjects

ARTHROPOD vectors, SALIVARY proteins, SALIVARY glands, BORRELIA, RELAPSING fever, ARTHROPODA, BABESIA

Abstract

Background: Borrelia turicatae, an agent of tick-borne relapsing fever, is an example of a pathogen that can adapt to disparate conditions found when colonizing the mammalian host and arthropod vector. However, little is known about the genetic factors necessary during the tick-mammalian infectious cycle, therefore we developed a genetic system to transform this species of spirochete. We also identified a plasmid gene that was up-regulated in vitro when B. turicatae was grown in conditions mimicking the tick environment. This 40 kilodalton protein was predicted to be surface localized and designated the Borrelia repeat protein A (brpA) due to the redundancy of the amino acid motif Gln-Gly-Asn-Val-Glu. Methodology/Principal Findings: Quantitative reverse-transcriptase polymerase chain reaction using RNA from B. turicatae infected ticks and mice indicated differential regulation of brpA during the tick-mammalian infectious cycle. The surface localization was determined, and production of the protein within the salivary glands of the tick was demonstrated. We then applied a novel genetic system for B. turicatae to inactivate brpA and examined the role of the gene product for vector colonization and the ability to establish murine infection. Conclusions/Significance: These results demonstrate the complexity of protein production in a population of spirochetes within the tick. Additionally, the development of a genetic system is important for future studies to evaluate the requirement of specific B. turicatae genes for vector colonization and transmission. Author Summary: Relapsing fever spirochetes are a global yet neglected pathogen causing recurrent febrile episodes, nausea, vomiting, and pregnancy complications including miscarriage. Most species of tick-borne relapsing fever spirochetes are maintained in enzootic cycles, and given an approximately 20 year life span, the arthropod vector for Borrelia turicatae represents a reservoir for the pathogens. While B. turicatae has adapted mechanisms to efficiently colonize and survive within the vector, the genes necessary during the tick-mammalian infectious cycle are unknown. We have identified a gene that was designated the Borrelia repeat protein A (brpA). brpA was up-regulated in a portion of the spirochetes colonizing Ornithodoros turicata, the vector for B. turicatae. Developing a system to delete the gene in B. turicatae enabled the evaluation of the necessity of brpA. With the genetic system established for B. turicatae, a better understanding of the genetic constituents required during the tick-mammalian infectious cycle may be obtained. [ABSTRACT FROM AUTHOR]

Published

2013

39. Development of Genetic System to Inactivate a Borrelia turicatae Surface Protein Selectively Produced within the Salivary Glands of the Arthropod Vector.

Author

Lopez, Job E., Wilder, Hannah K., Hargrove, Reid, Brooks, Christopher P., Peterson, Karin E., Beare, Paul A., Sturdevant, Daniel E., Nagarajan, Vijayaraj, Raffel, Sandra J., and Schwan, Tom G.

Subjects

PATHOGENIC microorganisms, MAMMALIAN cell cycle, ARTHROPOD vectors, PLASMID genetics, AMINO acid sequence, REVERSE transcriptase polymerase chain reaction, PHYSIOLOGY

Abstract

Background: Borrelia turicatae, an agent of tick-borne relapsing fever, is an example of a pathogen that can adapt to disparate conditions found when colonizing the mammalian host and arthropod vector. However, little is known about the genetic factors necessary during the tick-mammalian infectious cycle, therefore we developed a genetic system to transform this species of spirochete. We also identified a plasmid gene that was up-regulated in vitro when B. turicatae was grown in conditions mimicking the tick environment. This 40 kilodalton protein was predicted to be surface localized and designated the Borrelia repeat protein A (brpA) due to the redundancy of the amino acid motif Gln-Gly-Asn-Val-Glu. Methodology/Principal Findings: Quantitative reverse-transcriptase polymerase chain reaction using RNA from B. turicatae infected ticks and mice indicated differential regulation of brpA during the tick-mammalian infectious cycle. The surface localization was determined, and production of the protein within the salivary glands of the tick was demonstrated. We then applied a novel genetic system for B. turicatae to inactivate brpA and examined the role of the gene product for vector colonization and the ability to establish murine infection. Conclusions/Significance: These results demonstrate the complexity of protein production in a population of spirochetes within the tick. Additionally, the development of a genetic system is important for future studies to evaluate the requirement of specific B. turicatae genes for vector colonization and transmission. [ABSTRACT FROM AUTHOR]

Published

2013

40. Sequence Analysis and Serological Responses against Borrelia turicatae BipA, a Putative Species-Specific Antigen.

Author

Lopez, Job E., Wilder, Hannah K., Boyle, William, Drumheller, L. Brock, Thornton, Justin A., Willeford, Bridget, Morgan, Timothy W., and Varela-Stokes, Andrea

Subjects

BABESIA, MORNING sickness, BORRELIA, RELAPSING fever, SEQUENCE analysis, AMINO acid sequence, ANTIGENS

Abstract

Background: Relapsing fever spirochetes are global yet neglected pathogens causing recurrent febrile episodes, chills, nausea, vomiting, and pregnancy complications. Given these nonspecific clinical manifestations, improving diagnostic assays for relapsing fever spirochetes will allow for identification of endemic foci and expedite proper treatment. Previously, an antigen designated the Borrelia immunogenic protein A (BipA) was identified in the North American species Borrelia hermsii. Thus far, BipA appears unique to relapsing fever spirochetes. The antigen remains unidentified outside of these pathogens, while interspecies amino acid identity for BipA in relapsing fever spirochetes is only 24–36%. The current study investigated the immunogenicity of BipA in Borrelia turicatae, a species distributed in the southern United States and Latin America. Methodology/Principal Findings: bipA was amplified from six isolates of Borrelia turicatae, and sequence analysis demonstrated that the gene is conserved among isolates. A tick transmission system was developed for B. turicatae in mice and a canine, two likely vertebrate hosts, which enabled the evaluation of serological responses against recombinant BipA (rBipA). These studies indicated that BipA is antigenic in both animal systems after infection by tick bite, yet serum antibodies failed to bind to B. hermsii rBipA at a detectable level. Moreover, mice continued to generate an antibody response against BipA one year after the initial infection, further demonstrating the protein's potential toward identifying endemic foci for B. turicatae. Conclusions/Significance: These initial studies support the hypothesis that BipA is a spirochete antigen unique to a relapsing fever Borrelia species, and could be used to improve efforts for identifying B. turicatae endemic regions. Author Summary: Undiagnosed febrile illnesses continue to afflict those in resource poor countries. Relapsing fever spirochetes are one such pathogen causing a significant health burden, yet the pathogenesis, ecology, and distribution of B. turicatae is understudied. To address these shortcomings, we analyzed the amino acid sequence of the Borrelia immunogenic protein A (BipA) in isolates of B. turicatae. Mice and a canine were also infected by tick bite and transmission and serological responses were evaluated in these two likely mammalian hosts. B. turicatae was visualized within the blood of both animals and antibody responses generated against recombinant BipA indicated that the antigen that may be unique to infections caused by B. turicatae. Moreover, mice continued to generate antibodies a year after tick bite, suggesting a persistent infection. Our results indicate that the immune responses generated against BipA could identify additional vertebrate hosts, define endemic foci for B. turicatae, and increase the awareness of the disease to improve healthcare. [ABSTRACT FROM AUTHOR]

Published

2013

41. Sequence Analysis and Serological Responses against Borrelia turicatae BipA, a Putative Species-Specific Antigen.

Author

Lopez, Job E., Wilder, Hannah K., Boyle, William, Drumheller, L. Brock, Thornton, Justin A., Willeford, Bridget, Morgan, Timothy W., and Varela-Stokes, Andrea

Subjects

SPIROCHETES, FEBRILE seizures, BORRELIA, ANTIGENS, MICROBIOLOGICAL assay, SEQUENCE analysis, DIAGNOSIS, THERAPEUTICS

Abstract

Background: Relapsing fever spirochetes are global yet neglected pathogens causing recurrent febrile episodes, chills, nausea, vomiting, and pregnancy complications. Given these nonspecific clinical manifestations, improving diagnostic assays for relapsing fever spirochetes will allow for identification of endemic foci and expedite proper treatment. Previously, an antigen designated the Borrelia immunogenic protein A (BipA) was identified in the North American species Borrelia hermsii. Thus far, BipA appears unique to relapsing fever spirochetes. The antigen remains unidentified outside of these pathogens, while interspecies amino acid identity for BipA in relapsing fever spirochetes is only 24–36%. The current study investigated the immunogenicity of BipA in Borrelia turicatae, a species distributed in the southern United States and Latin America. Methodology/Principal Findings: bipA was amplified from six isolates of Borrelia turicatae, and sequence analysis demonstrated that the gene is conserved among isolates. A tick transmission system was developed for B. turicatae in mice and a canine, two likely vertebrate hosts, which enabled the evaluation of serological responses against recombinant BipA (rBipA). These studies indicated that BipA is antigenic in both animal systems after infection by tick bite, yet serum antibodies failed to bind to B. hermsii rBipA at a detectable level. Moreover, mice continued to generate an antibody response against BipA one year after the initial infection, further demonstrating the protein's potential toward identifying endemic foci for B. turicatae. Conclusions/Significance: These initial studies support the hypothesis that BipA is a spirochete antigen unique to a relapsing fever Borrelia species, and could be used to improve efforts for identifying B. turicatae endemic regions. [ABSTRACT FROM AUTHOR]

Published

2013

42. Endemic Foci of the Tick-Borne Relapsing Fever Spirochete Borrelia crocidurae in Mali, West Africa, and the Potential for Human Infection.

Author

Schwan, Tom G., Anderson, Jennifer M., Lopez, Job E., Fischer, Robert J., Raffel, Sandra J., McCoy, Brandi N., Safronetz, David, Sogoba, Nafomon, Maïga, Ousmane, and Traoré, Sékou F.

Subjects

RELAPSING fever, SPIROCHETES, BORRELIA, MAMMAL diversity, INFECTION, DIAGNOSIS

Abstract

Background: Tick-borne relapsing fever spirochetes are maintained in endemic foci that involve a diversity of small mammals and argasid ticks in the genus Ornithodoros. Most epidemiological studies of tick-borne relapsing fever in West Africa caused by Borrelia crocidurae have been conducted in Senegal. The risk for humans to acquire relapsing fever in Mali is uncertain, as only a few human cases have been identified. Given the high incidence of malaria in Mali, and the potential to confuse the clinical diagnosis of these two diseases, we initiated studies to determine if there were endemic foci of relapsing fever spirochetes that could pose a risk for human infection. Methodology/Principal Findings: We investigated 20 villages across southern Mali for the presence of relapsing fever spirochetes. Small mammals were captured, thin blood smears were examined microscopically for spirochetes, and serum samples were tested for antibodies to relapsing fever spirochetes. Ornithodoros sonrai ticks were collected and examined for spirochetal infection. In total, 11.0% of the 663 rodents and 14.3% of the 63 shrews tested were seropositive and 2.2% of the animals had active spirochete infections when captured. In the Bandiagara region, the prevalence of infection was higher with 35% of the animals seropositive and 10% infected. Here also Ornithodoros sonrai were abundant and 17.3% of 278 individual ticks tested were infected with Borrelia crocidurae. Fifteen isolates of B. crocidurae were established and characterized by multi-locus sequence typing. Conclusions/Significance: The potential for human tick-borne relapsing fever exists in many areas of southern Mali. Author Summary: Tick-borne relapsing fever is a spirochete-caused, recurrent illness acquired by the bite of fast-feeding ticks. In Mali, the potential for people to acquire relapsing fever is unknown although a few human cases have been reported there. Human malaria is also abundant in Mali, and could be complicating the diagnosis of relapsing fever. The relapsing fever spirochete, Borrelia crocidurae, is maintained in natural cycles involving small mammals and its tick vector Ornithodoros sonrai. Therefore, we investigated 20 villages across southern Mali to determine if relapsing fever spirochetes were circulating in small mammals and ticks that lived with people. We found that 11.3% of the 726 mammals tested showed evidence of prior infection, while 2.2% of the animals were actively infected. The tick vector was abundant in two villages we sampled, and overall 17.3% of the individual ticks tested were infected with spirochetes. We also isolated the spirochetes, Borrelia crocidurae, from rodents and ticks and compared their genetic makeup to other species of African spirochetes. We conclude that in some areas of Mali, people are at risk of acquiring tick-borne relapsing fever. Therefore, we recommend that blood smears from acutely ill patients be examined microscopically for spirochetes. [ABSTRACT FROM AUTHOR]

Published

2012

43. Endemic Foci of the Tick-Borne Relapsing Fever Spirochete Borrelia crocidurae in Mali, West Africa, and the Potential for Human Infection

Author

Schwan, Tom G., Anderson, Jennifer M., Lopez, Job E., Fischer, Robert J., Raffel, Sandra J., McCoy, Brandi N., Safronetz, David, Sogoba, Nafomon, Maïga, Ousmane, and Traoré, Sékou F.

Subjects

TICK-borne diseases, RELAPSING fever, BORRELIA duttonii, SPIROCHAETOSIS, CHROMATOGRAMS, NUCLEOTIDE sequence, INFECTIOUS disease transmission

Abstract

Background: Tick-borne relapsing fever spirochetes are maintained in endemic foci that involve a diversity of small mammals and argasid ticks in the genus Ornithodoros. Most epidemiological studies of tick-borne relapsing fever in West Africa caused by Borrelia crocidurae have been conducted in Senegal. The risk for humans to acquire relapsing fever in Mali is uncertain, as only a few human cases have been identified. Given the high incidence of malaria in Mali, and the potential to confuse the clinical diagnosis of these two diseases, we initiated studies to determine if there were endemic foci of relapsing fever spirochetes that could pose a risk for human infection. Methodology/Principal Findings: We investigated 20 villages across southern Mali for the presence of relapsing fever spirochetes. Small mammals were captured, thin blood smears were examined microscopically for spirochetes, and serum samples were tested for antibodies to relapsing fever spirochetes. Ornithodoros sonrai ticks were collected and examined for spirochetal infection. In total, 11.0% of the 663 rodents and 14.3% of the 63 shrews tested were seropositive and 2.2% of the animals had active spirochete infections when captured. In the Bandiagara region, the prevalence of infection was higher with 35% of the animals seropositive and 10% infected. Here also Ornithodoros sonrai were abundant and 17.3% of 278 individual ticks tested were infected with Borrelia crocidurae. Fifteen isolates of B. crocidurae were established and characterized by multi-locus sequence typing. Conclusions/Significance: The potential for human tick-borne relapsing fever exists in many areas of southern Mali. [ABSTRACT FROM AUTHOR]

Published

2012

44. Detection of Lassa Virus, Mali.

Author

Safronetz, David, Lopez, Job E., Sogoba, Nafomon, Traore', Sekou F., Raffel, Sandra J., Fischer, Elizabeth R., Ebihara, Hideki, Branco, Luis, Garry, Robert F., Schwan, Tom G., and Feldmann, Heinz

Subjects

LASSA fever, VIRUSES, MAMMALS, ARBOVIRUS diseases, ARENAVIRUS diseases

Abstract

To determine whether Lassa virus was circulating in southern Mall, we tested samples from small mammals from 3 villages, including Soromba, where in 2009 a British citizen probably contracted a lethal Lassa virus infection. We report the isolation and genetic characterization of Lassa virus from an area previously unknown for Lassa fever. [ABSTRACT FROM AUTHOR]

Published

2010

45. Corrigendum: Differential Expression of Putative Ornithodoros turicata Defensins Mediated by Tick Feeding.

Author

Armstrong, Brittany A., Kneubehl, Alexander R., Mitchell III, Robert D., Krishnavajhala, Aparna, Teel, Pete D., Pérez de León, Adalberto A., and Lopez, Job E.

Subjects

DEFENSINS, AFRICAN swine fever virus, TICKS, ANAPLASMA phagocytophilum

Published

2020

46. Diagnosis and Management of Borrelia turicatae Infection in Febrile Soldier, Texas, USA.

Author

Christensen, Anna M., Pietralczyk, Elizabeth, Lopez, Job E., Brooks, Christopher, Schriefer, Martin E., Wozniak, Edward, and Stermole, Benjamin

Subjects

BORRELIA diseases, SPIROCHETES, BLOOD testing, FEVER, AMERICAN military personnel, HEALTH, DIAGNOSIS, BACTERIA classification, ANTIBIOTICS, DISEASE relapse, BACTERIA, GENOMES, SERODIAGNOSIS, MILITARY personnel, DISEASE management, TREATMENT effectiveness, SEQUENCE analysis, THERAPEUTICS

Abstract

In August 2015, a soldier returned from field exercises in Texas, USA, with nonspecific febrile illness. Culture and sequencing of spirochetes from peripheral blood diagnosed Borrelia turicatae infection. The patient recovered after receiving doxycycline. No illness occurred in asymptomatic soldiers potentially exposed to the vector tick and prophylactically given treatment. [ABSTRACT FROM AUTHOR]

Published

2017

47. Correction: Synanthropic Mammals as Potential Hosts of Tick-Borne Pathogens in Panama.

Author

Bermúdez, Sergio E., Gottdenker, Nicole, Krishnavajhala, Aparna, Fox, Amy, Wilder, Hannah K., González, Kadir, Smith, Diorene, López, Marielena, Perea, Milixa, Rigg, Chystrie, Montilla, Santiago, Calzada, José E., Saldaña, Azael, Caballero, Carlos M., and Lopez, Job E.

Subjects

MAMMALS, PATHOGENIC microorganisms, FOXES

Published

2019

48. Isolation and Molecular Characterization of Tick-Borne Relapsing Fever Borrelia Infecting Ornithodoros (Pavlovskyella) verrucosus Ticks Collected in Ukraine.

Author

Filatov, Serhii, Krishnavajhala, Aparna, Armstrong, Brittany A, Nieto, Nathan C, Pérez de León, Adalberto A, Lopez, Job E, and Kneubehl, Alexander R

Abstract

Background: Tick-borne relapsing fever (TBRF) is a neglected zoonotic bacterial disease known to occur on 5 continents. We report a laboratory-acquired case of TBRF caused by Borrelia caucasica, which is endemic in Ukraine and transmitted by Ornithodoros verrucosus ticks.Methods: We isolated spirochetes and characterized them by partially sequencing the 16s ribosomal ribonucleic acid (rrs), flagellin (flaB), and deoxyribonucleic acid gyrase (gyrB) genes and conducting a phylogenetic analysis.Results: These analyses revealed a close relationship of Ukrainian spirochetes with the Asian TBRF species, Borrelia persica. The taxonomic and nomenclature problems related to insufficient knowledge on the spirochetes and their vectors in the region are discussed.Conclusions: Although these findings enhance our understanding of species identities for TBRF Borrelia in Eurasia, further work is required to address the neglected status of TBRF in this part of the world. Public health practitioners should consider TBRF and include the disease into differential diagnosis of febrile illnesses with unknown etiology. [ABSTRACT FROM AUTHOR]

Published

2019

49. Correction: Assessment of the Geographic Distribution of Ornithodoros turicata (Argasidae): Climate Variation and Host Diversity.

Author

Donaldson, Taylor G., Pèrez de León, Adalberto A, Li, Andrew Y., Castro-Arellano, Ivan, Wozniak, Edward, Boyle, William K., Hargrove, Reid, Wilder, Hannah K., Kim, Hee J., Teel, Pete D., and Lopez, Job E.

Subjects

AUTHORS, PERSONAL names

Abstract

A correction to the article "Assessment of the Geographic Distribution of Ornithodoros turicata (Argasidae): Climate Variation and Host Diversity" that was published in the 2016 issue is presented.

Published

2016