Your search keyword '"Mosquito Vectors virology"' showing total 1,523 results

1. Mosquitoes as Vectors of Mycobacterium ulcerans Based on Analysis of Notifications of Alphavirus Infection and Buruli Ulcer, Victoria, Australia.

Author

Buultjens AH, Tay EL, Yuen A, Friedman ND, Stinear TP, and Johnson PDR

Subjects

Humans, Animals, Victoria epidemiology, Alphavirus isolation & purification, Culicidae microbiology, Culicidae virology, Disease Notification, Buruli Ulcer transmission, Buruli Ulcer epidemiology, Buruli Ulcer microbiology, Mycobacterium ulcerans isolation & purification, Alphavirus Infections transmission, Alphavirus Infections epidemiology, Mosquito Vectors microbiology, Mosquito Vectors virology

Abstract

Alphavirus infections are transmitted by mosquitoes, but the mode of transmission for Mycobacterium ulcerans, which causes Buruli ulcer, is contested. Using notification data for Victoria, Australia, during 2017-2022, adjusted for incubation period, we show close alignment between alphavirus and Buruli ulcer seasons, supporting the hypothesis of mosquito transmission of M. ulcerans.

Published

2024

2. Paris 2024 Olympic Games: A risk enhancer for autochthonous arboviral diseases epidemics?

Author

Lefèvre L, Vincent-Titeca C, Garcia-Marin C, Temime L, and Jean K

Subjects

Humans, Paris epidemiology, Animals, Sports, Travel, Mosquito Vectors virology, Dengue epidemiology, Dengue transmission, Seasons, Arboviruses, Risk Factors, Arbovirus Infections epidemiology, Arbovirus Infections transmission, Disease Outbreaks, Epidemics

Abstract

Objectives: The anticipated increase in international tourist flows and the first locally acquired dengue cases in the Paris region in October 2023 have raised concerns about potential arbovirus outbreaks during the 2024 Olympics. Unlike previous mass sporting events at risk of arbovirus outbreaks, Paris is a nonendemic arbovirus area, requiring a unique investigation., Methods: Therefore, we analyzed factors conducive to possible arbovirus epidemics in temperate regions: vector distribution in the Paris area, seasonal global arboviral disease patterns, projected visitor demographics, and international flight bookings., Results and Conclusion: Our results suggest that the expected visitors' profile for the summer of 2024 should not increase the risk of arbovirus importation into the Paris region compared to a typical year. Conversely, the primary risk of arbovirus outbreaks is likely to come from within France, particularly from the French West Indies, where a notable, albeit declining, dengue outbreak is underway. Vigilant surveillance by French health authorities will ensure that this trend continues., Competing Interests: Declarations of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this article., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

3. Identification and molecular characterization of Wanghe virus: A novel member of the Solinviviridae family from mosquitoes, China.

Author

Feng S, Yang P, Ren M, Tu Y, Sun H, Lin W, and Niu G

Subjects

Animals, China, RNA Viruses genetics, RNA Viruses isolation & purification, RNA Viruses classification, RNA, Viral genetics, Arboviruses genetics, Arboviruses isolation & purification, Arboviruses classification, Mosquito Vectors virology, Phylogeny, Genome, Viral, Culicidae virology

Abstract

Arboviruses have always been a significant public health concern. Metagenomic surveillance has expanded the number of novel, often unclassified arboviruses, especially mosquito-borne and mosquito-specific viruses. This report presents the first description of a novel single-stranded RNA virus, Wanghe virus, identified from mosquitoes that were collected in Shandong Province in 2022. In this study, a total of 4,795 mosquitoes were collected and then divided into 105 pools according to location and species. QRT-PCR and nested PCR were performed to confirm the presence of Wanghe virus, and its genomic features and phylogenetic relationships were further analyzed. Our results revealed that Wanghe virus was detected in 9 out of the 105 mosquito pools, resulting in a minimum infection rate (MIR) of 0.19 % (9/4,795). One complete genome sequence and three viral partial sequences were obtained from the Wanghe virus-positive pools. Pairwise distance analysis indicated that these amplified sequences shared high nucleotide identity. Phylogenetic analysis demonstrated that Wanghe virus is most closely related to Guiyang Solinvi-like virus 3, which belongs to Solinviviridae. Further analyses indicated that Wanghe virus is a new, unclassified member of Solinviviridae., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

4. Mosquito (Diptera: Culicidae) diversity and arbovirus detection across an urban and agricultural landscape.

Author

Izquierdo-Suzán M, Zavala-Guerrero PB, Mendoza H, Portela Salomão R, Vázquez-Pichardo M, Von Thaden JJ, and Medellín RA

Subjects

Animals, Mexico epidemiology, Agriculture, Aedes virology, Aedes classification, Cities, Zika Virus isolation & purification, Zika Virus genetics, Ecosystem, Arboviruses isolation & purification, Arboviruses classification, Mosquito Vectors virology, Mosquito Vectors classification, Culicidae virology, Culicidae classification, Biodiversity

Abstract

Fragmented landscapes in Mexico, characterized by a mix of agricultural, urban, and native vegetation cover, presents unique ecological characteristics that shape the mosquito community composition and mosquito-borne diseases. The extent to which landscape influences mosquito populations and mosquito-borne diseases is still poorly understood. This work assessed the effect of landscape metrics -agriculture, urban, and native vegetation cover- on mosquito diversity and arbovirus presence in fragmented tropical deciduous forests in Central Mexico during 2021. Among the 21 mosquito species across six genera we identified, Culex quinquefasciatus was the most prevalent species, followed by Aedes aegypti, Ae. albopictus, and Ae. epactius. Notably, areas with denser native vegetation cover displayed higher mosquito species richness, which could have an impact on phenomena such as the dilution effect. Zika and dengue virus were detected in 85% of captured species, with first reports of DENV in several Aedes species and ZIKV in multiple Aedes and Culex species. These findings underscore the necessity of expanding arbovirus surveillance beyond Ae. aegypti and advocate for a deeper understanding of vector ecology in fragmented landscapes to adequately address public health strategies., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier B.V.)

Published

2024

5. Spatiotemporal analysis of imported and local dengue virus and cases in a metropolis in Southwestern China, 2013-2022.

Author

Tu T, Yang J, Xiao H, Zuo Y, Tao X, Ran Y, Yuan Y, Ye S, He Y, Wang Z, Tang W, Liu Q, Ji H, and Li Z

Subjects

China epidemiology, Humans, Disease Outbreaks, Animals, Aedes virology, Communicable Diseases, Imported epidemiology, Communicable Diseases, Imported virology, Communicable Diseases, Imported transmission, Mosquito Vectors virology, Cities epidemiology, Dengue epidemiology, Dengue transmission, Dengue virology, Dengue Virus genetics, Dengue Virus classification, Spatio-Temporal Analysis, Phylogeny

Abstract

Dengue fever is a viral illness, mainly transmitted by Aedes aegypti and Aedes albopictus. With climate change and urbanisation, more urbanised areas are becoming suitable for the survival and reproduction of dengue vector, consequently are becoming suitable for dengue transmission in China. Chongqing, a metropolis in southwestern China, has recently been hit by imported and local dengue fever, experiencing its first local outbreak in 2019. However, the genetic evolution dynamics of dengue viruses and the spatiotemporal patterns of imported and local dengue cases have not yet been elucidated. Hence, this study implemented phylogenetic analyses using genomic data of dengue viruses in 2019 and 2023 and a spatiotemporal analysis of dengue cases collected from 2013 to 2022. We sequenced a total of 15 nucleotide sequences of E genes. The dengue viruses formed separate clusters and were genetically related to those from Guangdong Province, China, and countries in Southeast Asia, including Laos, Thailand, Myanmar and Cambodia. Chongqing experienced a dengue outbreak in 2019 when 168 imported and 1,243 local cases were reported, mainly in September and October. Few cases were reported in 2013-2018, and only six were imported from 2020 to 2022 due to the COVID-19 lockdowns. Our findings suggest that dengue prevention in Chongqing should focus on domestic and overseas population mobility, especially in the Yubei and Wanzhou districts, where airports and railway stations are located, and the period between August and October when dengue outbreaks occur in endemic regions. Moreover, continuous vector monitoring should be implemented, especially during August-October, which would be useful for controlling the Aedes mosquitoes. This study is significant for defining Chongqing's appropriate dengue prevention and control strategies., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

6. A system dynamics modelling and analytical framework for imported dengue outbreak surveillance and risk mapping.

Author

Del-Águila-Mejía J, Morilla F, and Donado-Campos JM

Subjects

Humans, Spain epidemiology, Animals, Epidemiological Monitoring, Risk Assessment methods, Communicable Diseases, Imported epidemiology, Communicable Diseases, Imported transmission, Communicable Diseases, Imported virology, Seasons, Aedes virology, Systems Analysis, Mosquito Vectors virology, Dengue epidemiology, Dengue transmission, Disease Outbreaks

Abstract

System Dynamics (SD) models have been used to understand complex, multi-faceted dengue transmission dynamics, but a gap persists between research and actionable public health tools for decision-making. Spain is an at-risk country of imported dengue outbreaks, but only qualitative assessments are available to guide public health action and control. We propose a modular SD model combining temperature-dependent vector population, transmission parameters, and epidemiological interactions to simulate outbreaks from imported cases accounting for heterogeneous local climate-related transmission patterns. Under our assumptions, 15 provinces sustain vector populations capable of generating outbreaks from imported cases, with heterogeneous risk profiles regarding seasonality, magnitude and risk window shifting from late Spring to early Autum. Results being relative to given vector-to-human populations allow flexibility when translating outcomes between geographic scales. The model and the framework are meant to serve public health by incorporating transmission dynamics and quantitative-qualitative input to the evidence-based decision-making chain. It is a flexible tool that can easily adapt to changing contexts, parametrizations and epidemiological settings thanks to the modular approach., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2024

7. Genetic diversity of Flaviviridae and Rhabdoviridae EVEs in Aedes aegypti and Aedes albopictus on Hainan Island and the Leizhou Peninsula, China.

Author

Zhao M, Ran X, Zhang Q, Gao J, Wu M, Xing D, Zhang H, and Zhao T

Subjects

Animals, China epidemiology, Flaviviridae genetics, Flaviviridae classification, Mosquito Vectors virology, Mosquito Vectors genetics, Phylogeny, RNA, Small Interfering genetics, Zika Virus genetics, Zika Virus Infection virology, Zika Virus Infection transmission, Zika Virus Infection epidemiology, Aedes virology, Aedes genetics, Genetic Variation, Rhabdoviridae genetics

Abstract

Background: Hainan Island and the Leizhou Peninsula, the southernmost part of mainland China, are areas where Aedes aegypti and Ae. albopictus are sympatric and are also high-incidence areas of dengue outbreaks in China. Many studies have suggested that Aedes endogenous viral components (EVEs) are enriched in piRNA clusters which can silence incoming viral genomes. Investigation the EVEs present in the piRNA clusters associated with viral infection of Aedes mosquitoes in these regions may provide a theoretical basis for novel transmission-blocking vector control strategies., Methods: In this study, specific primers for endogenous Flaviviridae elements (EFVEs) and endogenous Rhabdoviridae elements (ERVEs) were used to detect the distribution of Zika virus infection associated EVEs in the genomes of individuals of the two Aedes mosquitoes. Genetic diversity of EVEs with a high detection rate was also analyzed., Results: The results showed that many EVEs associated with Zika virus infection were detected in both Aedes species, with the detection rates were 47.68% to 100% in Ae. aegypti and 36.15% to 92.31% in sympatric Ae. albopictus populations. EVEs detection rates in another 17 Ae. albopictus populations ranged from 29.39% to 89.85%. Genetic diversity analyses of the four EVEs (AaFlavi53, AaRha61, AaRha91 and AaRha100) of Ae. aegypti showed that each had high haplotype diversity and low nucleotide diversity. The number of haplotypes in AaFlavi53 was 8, with the dominant haplotype being Hap_1 and the other 7 haplotypes being further mutated from Hap_1 in a lineage direction. In contrast, the haplotype diversity of the other three ERVEs (AaRha61, AaRha91 and AaRha100) was more diverse and richer, with the haplotype numbers were 9, 15 and 19 respectively. In addition, these EVEs all showed inconsistent patterns of both population differentiation and dispersal compared to neutral evolutionary genes such as the Mitochondrial COI gene., Conclusion: The EFVEs and ERVEs tested were present at high frequencies in the field Aedes mosquito populations. The haplotype diversity of the EFVE AaFlavi53 was relatively lower and the three ERVEs (AaRha61, AaRha91, AaRha100) were higher. None of the four EVEs could be indicative of the genetic diversity of the Ae. aegypti population. This study provided theoretical support for the use of EVEs to block arbovirus transmission, but further research is needed into the mechanisms by which these EVEs are antiviral to Aedes mosquitoes., Competing Interests: Declaration of competing interest The authors declare that they have no competing interests including financial and nonfinancial interests., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

8. Generating prophylactic immunity against arboviruses in vertebrates and invertebrates.

Author

Rawle DJ, Hugo LE, Cox AL, Devine GJ, and Suhrbier A

Subjects

Animals, Humans, Vertebrates immunology, Viral Vaccines immunology, Invertebrates immunology, Mosquito Vectors immunology, Mosquito Vectors virology, Arboviruses immunology, Arbovirus Infections immunology, Arbovirus Infections prevention & control

Abstract

The World Health Organization recently declared a global initiative to control arboviral diseases. These are mainly caused by pathogenic flaviviruses (such as dengue, yellow fever and Zika viruses) and alphaviruses (such as chikungunya and Venezuelan equine encephalitis viruses). Vaccines represent key interventions for these viruses, with licensed human and/or veterinary vaccines being available for several members of both genera. However, a hurdle for the licensing of new vaccines is the epidemic nature of many arboviruses, which presents logistical challenges for phase III efficacy trials. Furthermore, our ability to predict or measure the post-vaccination immune responses that are sufficient for subclinical outcomes post-infection is limited. Given that arboviruses are also subject to control by the immune system of their insect vectors, several approaches are now emerging that aim to augment antiviral immunity in mosquitoes, including Wolbachia infection, transgenic mosquitoes, insect-specific viruses and paratransgenesis. In this Review, we discuss recent advances, current challenges and future prospects in exploiting both vertebrate and invertebrate immune systems for the control of flaviviral and alphaviral diseases., (© 2024. Springer Nature Limited.)

Published

2024

9. Isolation and sequencing of Orthoflavivirus ilheusense from mosquitoes collected in the Brazilian cerrado, West-Central region, Brazil.

Author

Reis LAM, Nunes Neto JP, Nascimento BLSD, Araújo AA, Nogueira CG, Cavalcante KRLJ, Ramos DG, Durans DBS, Wanzeler ALM, Santos MM, Júnior JWR, Gonçalves EJ, Silva SPD, Cruz ACR, and Silva EVPD

Subjects

Animals, Brazil, Vero Cells, Chlorocebus aethiops, Flavivirus genetics, Flavivirus isolation & purification, Flavivirus classification, Mosquito Vectors virology, Phylogeny, Culicidae virology

Abstract

The Orthoflavivirus ilheusense (ILHV) is an arbovirus that was first isolated in Brazil in 1944 during an epidemiologic investigation of yellow fever. Is a member of the Flaviviridae family and it belongs to the antigenic complex of the Ntaya virus group. Psorophora ferox is the primary vector of ILHV and this study presents the isolation and phylogenetic analysis of ILHV in a pool of Ps. ferox collected in the state of Goiás in 2021. Viral isolation tests were performed on Vero cells and C6/36 clones. The indirect immunofluorescence test (IFI) was used to confirm the positivity of the sample. The positive sample underwent RT-qPCR, sequencing, and phylogenetic analysis. This is the first report of ILHV circulation in this municipality and presented close relationship between this isolate and another ILHV isolate collected in the city of Belém (PA)., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier B.V.)

Published

2024

10. Detection of DENV-1, DENV-3, and DENV-4 Serotypes in Aedes aegypti and Aedes albopictus , and Epidemic Risk in the Departments of Oueme and Plateau, South-Eastern Benin.

Author

Padonou GG, Konkon AK, Zoungbédji DM, Salako AS, Sovi A, Oussou O, Sidick A, Ahouandjinou J, Towakinou L, Ossé R, Baba-Moussa L, and Akogbéto MC

Subjects

Animals, Benin epidemiology, Humans, Epidemics, Aedes virology, Dengue Virus isolation & purification, Dengue Virus genetics, Dengue Virus classification, Dengue epidemiology, Dengue transmission, Dengue virology, Serogroup, Mosquito Vectors virology

Abstract

Background: This study conducted in the departments of Oueme and Plateau aims to assess the presence of the dengue virus and its different serotypes in Aedes aegypti and Aedes albopictus , as well as the epidemic risk incurred by the populations. Methods: Collections of adult mosquitoes using human landing catches (HLC) were carried out in six communes, three (Porto-Novo, Adjarra, and Avrankou) in the Oueme department and the rest (Ifangni, Kétou, and Pobè) in the Plateau department. Pools of ten Aedes mosquitoes were formed, and stored at -80°C in RNA later. RT-PCR was used to detect dengue virus, and conventional PCR for the different serotypes. Inspection of water containers and collection of Aedes larvae was performed inside and around each house to calculate the stegomyan indices. Results: In the six communes, the dengue virus was present both in Ae. aegypti and Ae. albopictus . Combined data of the two Aedes species at the communes level revealed infection rates ranging from 80.00% (95% CI: 61.43-92.29) to 96.67% (95% CI: 82.78-99.92). In all the communes, the values of stegomyan indices reached the WHO threshold, which indicates the existence of the risk of an arbovirus epidemic. In addition, the infection rates were similar for Ae. aegypti [88.19% (95% CI: 81.27-93.24)] and Ae. albopictus [86.79% (95% CI: 74.66-94.52)]. The three virus serotypes detected in the pools of Aedes were DENV-1, DENV-3, and DENV-4, with a high prevalence for the first two. Conclusion: This study revealed that three serotypes (DENV-1, DENV-3, and DENV-4) of dengue virus circulate in Ae. aegypti and Ae. albopictus in the departments of Oueme and Plateau. Moreover, the risk of transmission of arboviruses was globally high and variable from commune to commune. This information is essential for informed decision-making in the preventive control of the disease.

Published

2024

11. LA CROSSE VIRUS VECTOR RESTING BEHAVIORS - FIELD STUDIES WITH PROKOPAK AND RESTING SHELTER COLLECTIONS PROVIDE LOW YIELD.

Author

Nordgulen M, Lewandowski K, Burkett-Cadena N, Mathias D, and Byrd BD

Subjects

Animals, Female, Encephalitis, California transmission, Encephalitis, California virology, Introduced Species, Behavior, Animal, Mosquito Vectors physiology, Mosquito Vectors virology, La Crosse virus physiology, Aedes physiology, Aedes virology, Rhododendron

Abstract

Resting adult mosquito collections provide opportunities to sample broad physiological conditions (e.g., blood-engorged, gravid, nectar-engorged, and/or parous) that yield important biological information necessary to understand vector and pathogen transmission ecology. In this study, we evaluated Prokopak aspirations of Rhododendron spp. and human-powered pop-up resting shelter collections at 4 residences with historical evidence of proximal La Crosse virus (LACV) transmission from May through September 2022. The goal of this study was to investigate these sampling methods in the context of LACV vector biology-focused principally on Aedes triseriatus (primary LACV vector) and 2 invasive species (Ae. albopictus and Ae. japonicus) that likely serve as secondary LACV vectors. Overall, 304 resting shelters and 80 Prokopak collections yielded a grand total of 33 mosquitoes, of which a third were LACV vectors (Ae. triseriatus [n = 1, 3.0%], Ae. albopictus [n = 4, 12.1%], and Ae. japonicus [n = 6, 18.2%]). Anopheles punctipennis (n = 9, 27.2%) was the most frequently collected species followed by Culex erraticus (n = 7, 21.2%), whereas the least frequently collected species were Ae. triseriatus and Cx. pipiens (n = 1, 3.0%). Despite substantial collection efforts, and concurrent gravid-trap evidence of LACV vectors at the collection sites, Prokopak aspiration of Rhododendron spp. and human-powered pop-up resting shelters did not yield a meaningful number of LACV vectors and thus, as described within, may not be useful adjuncts for the evaluation of LACV ecology and disease risk. Additional approaches to evaluate the resting behavior of these vectors in LACV endemic areas are needed., (Copyright © 2024 by The American Mosquito Control Association, Inc.)

Published

2024

12. Mosquito species identity matters: unraveling the complex interplay in vector-borne diseases.

Author

Ferraguti M

Subjects

Animals, Humans, Europe, Host-Pathogen Interactions, Mosquito Vectors virology, Vector Borne Diseases transmission, Culicidae

Abstract

Background: Research on vector-borne diseases has traditionally centred on a limited number of vertebrate hosts and their associated pathogens, often neglecting the broader array of vectors within communities. Mosquitoes, with their vast species diversity, hold a central role in disease transmission, yet their capacity to transmit specific pathogens varies considerably among species. Quantitative modelling of mosquito-borne diseases is essential for understanding transmission dynamics and requires the necessity of incorporating the identity of vector species into these models. Consequently, understanding the role of different species of mosquitoes in modelling vector-borne diseases is crucial for comprehending pathogen amplification and spill-over into humans. This comprehensive overview highlights the importance of considering mosquito identity and emphasises the essential need for targeted research efforts to gain a complete understanding of vector-pathogen specificity., Methods: Leveraging the recently published book, 'Mosquitoes of the World', I identified 19 target mosquito species in Europe, highlighting the diverse transmission patterns exhibited by different vector species and the presence of 135 medically important pathogens., Results: The review delves into the complexities of vector-pathogen interactions, with a focus on specialist and generalist strategies. Furthermore, I discuss the importance of using appropriate diversity indices and the challenges associated with the identification of correct indices., Conclusions: Given that the diversity and relative abundance of key species within a community significantly impact disease risk, comprehending the implications of mosquito diversity in pathogen transmission at a fine scale is crucial for advancing the management and surveillance of mosquito-borne diseases.

Published

2024

13. A Scoping Review on the Epidemiology of Orthobunyaviruses of Canadian Public and Animal Health Relevance in the Context of Vector Species.

Author

Bergevin MD, Ng V, Ludwig A, Sadeghieh T, Menzies P, Mubareka S, and Clow KM

Subjects

Animals, Canada epidemiology, Humans, Bunyaviridae Infections epidemiology, Bunyaviridae Infections transmission, Culicidae virology, Orthobunyavirus, Mosquito Vectors virology

Abstract

Background: Mosquito-borne orthobunyaviruses are a growing priority for public and animal health in Canada. It is anticipated that disease incidence will increase due to a warming climate, given that habitats are expanding for reservoir hosts and vectors, particularly in Canada. Little is known about the ecology of primary vectors that perpetuate these orthobunyaviruses, including the viral transmission cycle and the impact of climatic and landscape factors. Methods: A scoping review was conducted to describe the current state of knowledge on the epidemiology of orthobunyaviruses relevant to Canada. The Preferred Reporting Items for Systematic Reviews and Meta-Analyses extension for Scoping Reviews guidelines was used to characterize studies focused on vector species. A literature search was conducted in six databases and gray literature. Eligible studies characterized orthobunyavirus epidemiology related to vector species, including viral competency, geospatial distributions, seasonal trends, and/or risk factors. Results: A total of 1734 unique citations were identified. Screening of these citations revealed 172 relevant studies, from which 87 studies presented primary data related to vectors. The orthobunyaviruses included Cache Valley virus (CVV), Jamestown Canyon virus (JCV), Snowshoe Hare virus (SHV), and La Crosse virus (LACV). Surveillance was the predominant study focus, with most citations representing the United States, specifically, LACV surveillance in Tennessee, followed by CVV and JCV in Connecticut. Orthobunyaviruses were detected in many mosquito species across multiple genera, with high vector specificity only being reported for LACV, which included Aedes triseriatus , Aedes albopictus , and Aedes japonicus. Peridomestic areas were positively associated with infected mosquitoes compared with dense forests. Orthobunyavirus infections, coinfections, and gut microbiota affected mosquito feeding and breeding behavior. Conclusion: Knowledge gaps included Canadian surveillance data, disease modeling, and risk projections. Further research in these areas, especially accounting for climate change, is needed to guide health policy for prevention of orthobunyaviral disease.

Published

2024

14. Host attraction and host feeding patterns indicate generalist feeding of Culex pipiens s.s. and Cx. torrentium.

Author

Wehmeyer ML, Jaworski L, Jöst H, Șuleșco T, Rauhöft L, Afonso SMM, Neumann M, Kliemke K, Lange U, Kiel E, Schmidt-Chanasit J, Sauer FG, and Lühken R

Subjects

Animals, Mice, Humans, Female, Germany, Iran, Host Specificity, West Nile virus physiology, West Nile virus genetics, Flavivirus genetics, Flavivirus physiology, Flavivirus isolation & purification, Species Specificity, Culex physiology, Culex virology, Culex classification, Feeding Behavior, Birds, Mosquito Vectors physiology, Mosquito Vectors virology, Mosquito Vectors classification

Abstract

Background: Mosquito host feeding patterns are an important factor of the species-specific vector capacity determining pathogen transmission routes. Culex pipiens s.s./Cx. torrentium are competent vectors of several arboviruses, such as West Nile virus and Usutu virus. However, studies on host feeding patterns rarely differentiate the morphologically indistinguishable females., Methods: We analyzed the host feeding attraction of Cx. pipiens and Cx. torrentium in host-choice studies for bird, mouse, and a human lure. In addition, we summarized published and unpublished data on host feeding patterns of field-collected specimens from Germany, Iran, and Moldova from 2012 to 2022, genetically identified as Cx. pipiens biotype pipiens, Cx. pipiens biotype molestus, Cx. pipiens hybrid biotype pipiens × molestus, and Cx. torrentium, and finally put the data in context with similar data found in a systematic literature search., Results: In the host-choice experiments, we did not find a significant attraction to bird, mouse, and human lure for Cx. pipiens pipiens and Cx. torrentium. Hosts of 992 field-collected specimens were identified for Germany, Iran, and Moldova, with the majority determined as Cx. pipiens pipiens, increasing the data available from studies known from the literature by two-thirds. All four Culex pipiens s.s./Cx. torrentium taxa had fed with significant proportions on birds, humans, and nonhuman mammals. Merged with the data from the literature from 23 different studies showing a high prevalence of blood meals from birds, more than 50% of the blood meals of Cx. pipiens s.s. were identified as birds, while up to 39% were human and nonhuman mammalian hosts. Culex torrentium fed half on birds and half on mammals. However, there were considerable geographical differences in the host feeding patterns., Conclusions: In the light of these results, the clear characterization of the Cx. pipiens s.s./Cx. torrentium taxa as ornithophilic/-phagic or mammalophilic/-phagic needs to be reconsidered. Given their broad host ranges, all four Culex taxa could potentially serve as enzootic and bridge vectors., (© 2024. The Author(s).)

Published

2024

15. Irrigation increases and stabilizes mosquito populations and increases West Nile virus incidence.

Author

Kovach TJ and Kilpatrick AM

Subjects

Animals, Humans, California epidemiology, Incidence, Climate Change, Seasons, West Nile Fever epidemiology, West Nile Fever transmission, West Nile virus physiology, Culex virology, Culex physiology, Mosquito Vectors virology, Agricultural Irrigation

Abstract

Humans have greatly altered earth's terrestrial water cycle with the majority of fresh water being used for agriculture. Irrigation changes spatial and temporal water availability and alters mosquito abundance and phenology. Previous studies evaluating the effect of irrigation on mosquito abundance and mosquito-borne disease have shown inconsistent results and little is known about the effect of irrigation on variability in mosquito abundance. We examined the effect of irrigation, climate and land cover on mosquito abundance and human West Nile virus (WNV) disease cases across California. Irrigation made up nearly a third of total water inputs, and exceeded precipitation in some regions. Abundance of two key vectors of several arboviruses, including WNV, Culex tarsalis and the Culex pipiens complex, increased 17-21-fold with irrigation. Irrigation reduced seasonal variability in C. tarsalis abundance by 36.1%. Human WNV incidence increased with irrigation, which explained more than a third (34.2%) of the variation in WNV incidence among California counties. These results suggest that irrigation can increase and decouple mosquito populations from natural precipitation variability, resulting in sustained and increased disease burdens. Shifts in precipitation due to climate change are likely to result in increased irrigation in many arid regions which could increase mosquito populations and disease., (© 2024. The Author(s).)

Published

2024

16. Low humidity enhances Zika virus infection and dissemination in Aedes aegypti mosquitoes.

Author

Abu AEI, Becker M, Accoti A, Sylla M, and Dickson LB

Subjects

Animals, Female, Temperature, Feeding Behavior, Aedes virology, Aedes physiology, Humidity, Zika Virus Infection transmission, Zika Virus Infection virology, Mosquito Vectors virology, Zika Virus physiology, Climate Change

Abstract

As climate change alters Earth's biomes, it is expected the transmission dynamics of mosquito-borne viruses will change. While the effects of temperature changes on mosquito-virus interactions and the spread of the pathogens have been elucidated over the last decade, the impact of relative humidity changes is still relatively unknown. To overcome this knowledge gap, we exposed Aedes aegypti females to various humidity conditions. We measured different components of vectorial capacity such as survival, blood-feeding rates, and changes in infection and dissemination of Zika virus. Survival decreased as the humidity level decreased, while infection rates increased as the humidity level decreased. Alternatively, blood feeding rates and disseminated infection rates peaked at the intermediate 50% relative humidity treatment but were the same in the 30% and 80% relative humidity treatments. These results provide empirical evidence that Ae. aegypti exposure to low humidity can enhance Zika virus infection in the mosquito, which has important implications in predicting how climate change will impact mosquito-borne viruses.IMPORTANCEViruses transmitted by mosquitoes to humans are a major public health burden and are expected to increase under climate change. While we know that temperature is an important driver of variation in arbovirus replication in the mosquito, very little is known about how other relevant climate variables such as humidity will influence the interaction between mosquitoes and the viruses they transmit. Given the variability in humidity across environments, and the predicted changes in humidity under climate change, it is imperative that we also study the impact that it has on mosquito infection and transmission of arboviruses., Competing Interests: The authors declare no conflict of interest.

Published

2024

17. Bunyamwera Virus Infection of Wolbachia -Carrying Aedes aegypti Mosquitoes Reduces Wolbachia Density.

Author

Lefteri DA, Rainey SM, Murdochy SM, and Sinkins SP

Subjects

Animals, Female, Symbiosis, Wolbachia physiology, Aedes microbiology, Aedes virology, Mosquito Vectors microbiology, Mosquito Vectors virology, Bunyamwera virus

Abstract

Wolbachia symbionts introduced into Aedes mosquitoes provide a highly effective dengue virus transmission control strategy, increasingly utilised in many countries in an attempt to reduce disease burden. Whilst highly effective against dengue and other positive-sense RNA viruses, it remains unclear how effective Wolbachia is against negative-sense RNA viruses. Therefore, the effect of Wolbachia on Bunyamwera virus (BUNV) infection in Aedes aegypti was investigated using w Mel and w AlbB, two strains currently used in Wolbachia releases for dengue control, as well as w Au, a strain that typically persists at a high density and is an extremely efficient blocker of positive-sense viruses. Wolbachia was found to reduce BUNV infection in vitro but not in vivo. Instead, BUNV caused significant impacts on density of all three Wolbachia strains following infection of Ae. aegypti mosquitoes. The ability of Wolbachia to successfully persist within the mosquito and block virus transmission is partially dependent on its intracellular density. However, reduction in Wolbachia density was not observed in offspring of infected mothers. This could be due in part to a lack of transovarial transmission of BUNV observed. The results highlight the importance of understanding the complex interactions between multiple arboviruses, mosquitoes and Wolbachia in natural environments, the impact this can have on maintaining protection against diseases, and the necessity for monitoring Wolbachia prevalence at release sites.

Published

2024

18. Assessing dengue risk globally using non-Markovian models.

Author

Vajdi A, Cohnstaedt LW, and Scoglio CM

Subjects

Animals, Humans, Disease Outbreaks, Mosquito Vectors virology, Mosquito Vectors growth & development, Models, Biological, Temperature, Markov Chains, Risk Assessment, Dengue Virus physiology, Dengue transmission, Dengue epidemiology, Aedes virology

Abstract

Dengue is a vector-borne disease transmitted by Aedes mosquitoes. The worldwide spread of these mosquitoes and the increasing disease burden have emphasized the need for a spatio-temporal risk map capable of assessing dengue outbreak conditions and quantifying the outbreak risk. Given that the life cycle of Aedes mosquitoes is strongly influenced by habitat temperature, numerous studies have utilized temperature-dependent development rates of these mosquitoes to construct virus transmission and outbreak risk models. In this study, we contribute to existing research by developing a mechanistic model for the mosquito life cycle that accurately captures its non-Markovian nature. Beginning with integral equations to track the mosquito population across different life cycle stages, we demonstrate how to derive the corresponding differential equations using phase-type distributions. This approach can be further applied to similar non-Markovian processes that are currently described with less accurate Markovian models. By fitting the model to data on human dengue cases, we estimate several model parameters, allowing the development of a global spatiotemporal dengue risk map. This risk model employs temperature and precipitation data to assess the environmental suitability for dengue outbreaks in a given area., Competing Interests: Declaration of competing interest Declarations if interest none., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

19. Highly divergent and diverse viral community infecting sylvatic mosquitoes from Northeast Brazil.

Author

da Silva AF, Machado LC, da Silva LMI, Dezordi FZ, and Wallau GL

Subjects

Animals, Brazil, Mosquito Vectors virology, Genome, Viral, RNA, Viral genetics, Insect Viruses genetics, Insect Viruses classification, Insect Viruses isolation & purification, RNA Viruses genetics, RNA Viruses classification, RNA Viruses isolation & purification, Phylogeny, Virome genetics, Culicidae virology

Abstract

Mosquitoes can transmit several pathogenic viruses to humans, but their natural viral community is also composed of a myriad of other viruses such as insect-specific viruses (ISVs) and those that infect symbiotic microorganisms. Besides a growing number of studies investigating the mosquito virome, the majority are focused on few urban species, and relatively little is known about the virome of sylvatic mosquitoes, particularly in high biodiverse biomes such as the Brazilian biomes. Here, we characterized the RNA virome of 10 sylvatic mosquito species from Atlantic forest remains at a sylvatic-urban interface in Northeast Brazil employing a metatranscriptomic approach. A total of 16 viral families were detected. The phylogenetic reconstructions of 14 viral families revealed that the majority of the sequences are putative ISVs. The phylogenetic positioning and, in most cases, the association with a high RNA-dependent RNA polymerase amino acid divergence from other known viruses suggests that the viruses characterized here represent at least 34 new viral species. Therefore, the sylvatic mosquito viral community is predominantly composed of highly divergent viruses highlighting the limited knowledge we still have about the natural virome of mosquitoes in general. Moreover, we found that none of the viruses recovered were shared between the species investigated, and only one showed high identity to a virus detected in a mosquito sampled in Peru, South America. These findings add further in-depth understanding about the interactions and coevolution between mosquitoes and viruses in natural environments., Importance: Mosquitoes are medically important insects as they transmit pathogenic viruses to humans and animals during blood feeding. However, their natural microbiota is also composed of a diverse set of viruses that cause no harm to the insect and other hosts, such as insect-specific viruses. In this study, we characterized the RNA virome of sylvatic mosquitoes from Northeast Brazil using unbiased metatranscriptomic sequencing and in-depth bioinformatic approaches. Our analysis revealed that these mosquitoes species harbor a diverse set of highly divergent viruses, and the majority comprises new viral species. Our findings revealed many new virus lineages characterized for the first time broadening our understanding about the natural interaction between mosquitoes and viruses. Finally, it also provided several complete genomes that warrant further assessment for mosquito and vertebrate host pathogenicity and their potential interference with pathogenic arboviruses., Competing Interests: The authors declare no conflict of interest.

Published

2024

20. Estimation of population age structure, daily survival rates, and potential to support dengue virus transmission for Florida Keys Aedes aegypti via transcriptional profiling.

Author

Pruszynski CA, Buckner EA, Burkett-Cadena ND, Hugo LE, Leal AL, and Caragata EP

Subjects

Animals, Florida epidemiology, Female, Gene Expression Profiling, Humans, Male, Aedes virology, Aedes genetics, Dengue Virus genetics, Mosquito Vectors virology, Mosquito Vectors genetics, Dengue transmission, Dengue virology

Abstract

Aedes aegypti is an important vector of dengue virus and other arboviruses that affect human health. After being ingested in an infectious bloodmeal, but before being transmitted from mosquito to human, dengue virus must disseminate from the vector midgut into the hemocoel and then the salivary glands. This process, the extrinsic incubation period, typically takes 6-14 days. Since older mosquitoes are responsible for transmission, understanding the age structure of vector populations is important. Transcriptional profiling can facilitate predictions of the age structures of mosquito populations, critical for estimating their potential for pathogen transmission. In this study, we utilized a two-gene transcript model to assess the age structure and daily survival rates of three populations (Key West, Marathon, and Key Largo) of Ae. aegypti from the Florida Keys, United States, where repeated outbreaks of autochthonous dengue transmission have recently occurred. We found that Key Largo had the youngest Ae. aegypti population with the lowest daily survival rate, while Key West had the oldest population and highest survival rate. Across sites, 22.67% of Ae. aegypti females were likely old enough to transmit dengue virus (at least 15 days post emergence). Computed estimates of the daily survival rate (0.8364 using loglinear and 0.8660 using non-linear regression), indicate that dengue vectors in the region experienced relatively low daily mortality. Collectively, our data suggest that Ae. aegypti populations across the Florida Keys harbor large numbers of older individuals, which likely contributes to the high risk of dengue transmission in the area., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Pruszynski et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

21. Characterization of mosquito host-biting networks of potential Rift Valley fever virus vectors in north-eastern KwaZulu-Natal province, South Africa.

Author

Makhanthisa TI, Guarido MM, Kemp A, Weyer J, Rostal MK, Karesh WB, and Thompson PN

Subjects

Animals, South Africa, Humans, Feeding Behavior, Culex virology, Culex physiology, Insect Bites and Stings, Female, Culicidae virology, Culicidae physiology, Culicidae classification, Mosquito Vectors virology, Mosquito Vectors physiology, Rift Valley fever virus genetics, Rift Valley fever virus isolation & purification, Rift Valley fever virus physiology, Rift Valley Fever transmission, Rift Valley Fever virology, Rift Valley Fever epidemiology, Aedes virology, Aedes physiology, Aedes genetics, Aedes classification

Abstract

Background: Rift Valley fever virus (RVFV) is a zoonotic mosquito-borne virus with serious implications for livestock health, human health, and the economy in Africa, and is suspected to be endemic in north-eastern KwaZulu-Natal (KZN), South Africa. The vectors of RVFV in this area are poorly known, although several species, such as Aedes (Neomelaniconion) mcintoshi, Aedes (Neomelaniconion) circumluteolus, Aedes (Aedimorphus) durbanensis, and Culex (Lasioconops) poicilipes may be involved. The aim of the study was to determine the vertebrate blood meal sources of potential RVFV mosquito vectors in north-eastern KZN and to characterize the host-biting network., Methods: Blood-fed mosquitoes were collected monthly from November 2019 to February 2023 using a backpack aspirator, CO 2 -baited Centers for Disease Control and Prevention (CDC) miniature light traps and tent traps, in the vicinity of water bodies and livestock farming households. The mosquitoes were morphologically identified. DNA was extracted from individual mosquitoes and used as templates to amplify the vertebrate cytochrome c oxidase I (COI) and cytochrome b (cytb) genes using conventional polymerase chain reaction (PCR). Amplicons were sequenced and queried in GenBank and the Barcode of Life Data systems to identify the vertebrate blood meal sources and confirm mosquito identifications. All mosquitoes were screened for RVFV using real time reverse transcription (RT)-PCR., Results: We identified the mammalian (88.8%) and avian (11.3%) blood meal sources from 409 blood-fed mosquitoes. Aedes circumluteolus (n = 128) made up the largest proportion of collected mosquitoes. Cattle (n = 195) and nyala (n = 61) were the most frequent domestic and wild hosts, respectively. Bipartite network analysis showed that the rural network consisted of more host-biting interactions than the reserve network. All mosquitoes tested negative for RVFV., Conclusions: Several mosquito species, including Ae. circumluteolus, and vertebrate host species, including cattle and nyala, could play a central role in RVFV transmission. Future research in this region should focus on these species to better understand RVFV amplification., (© 2024. The Author(s).)

Published

2024

22. Sylvatic Mosquito Viromes in the Cerrado Biome of Minas Gerais, Brazil: Discovery of New Viruses and Implications for Arbovirus Transmission.

Author

Maia LJ, Silva AB, Oliveira CH, Campos FS, Silva LAD, Abreu FVS, and Ribeiro BM

Subjects

Animals, Brazil, Genome, Viral, High-Throughput Nucleotide Sequencing, Insect Viruses genetics, Insect Viruses classification, Insect Viruses isolation & purification, Arboviruses genetics, Arboviruses classification, Arboviruses isolation & purification, Virome genetics, Culicidae virology, Phylogeny, Arbovirus Infections transmission, Arbovirus Infections virology, Mosquito Vectors virology

Abstract

Studies on animal virome have mainly concentrated on chordates and medically significant invertebrates, often overlooking sylvatic mosquitoes, constituting a major part of mosquito species diversity. Despite their potential role in arbovirus transmission, the viromes of sylvatic mosquitoes remain largely unexplored. These mosquitoes may also harbor insect-specific viruses (ISVs), affecting arboviral transmission dynamics. The Cerrado biome, known for rapid deforestation and its status as a biodiversity hotspot, offers an ideal setting for investigating mosquito viromes due to potential zoonotic spillover risks from land use changes. This study aimed to characterize the viromes of sylvatic mosquitoes collected from various locations within Minas Gerais state, Brazil. The total RNA was extracted from mosquito pools of Psorophora albipes , Sabethes albiprivus , Sa. chloropterus , Psorophora ferox , and Coquillettidia venezuelensis species, followed by high-throughput sequencing (HTS). Bioinformatic analysis included quality control, contig assembly, and viral detection. Sequencing data analysis revealed 11 near-complete viral genomes (new viruses are indicated with asterisks) across seven viral families and one unassigned genus. These included: Xinmoviridae (Ferox mosquito mononega-like virus* and Albipes mosquito Gordis-like virus*), Phasmaviridae (Sabethes albiprivus phasmavirus*), Lispiviridae (Pedras lispivirus variant MG), Iflaviridae (Sabethes albiprivus iflavivirus*), Virgaviridae (Buriti virga-like virus variant MG and Sabethes albiprivus virgavirus 1*), Flaviviridae (Psorophora ferox flavivirus*), Mesoniviridae (Alphamesonivirus cavallyense variant MG), and the genus Negevirus (Biggie virus variant MG virus and Coquillettidia venezuelensis negevirus*). Moreover, the presence of ISVs and potential novel arboviruses underscores the need for ongoing surveillance and control strategies to mitigate the risk of emerging infectious diseases.

Published

2024

23. The human CD47 checkpoint is targeted by an immunosuppressive Aedes aegypti salivary factor to enhance arboviral skin infectivity.

Author

Marin-Lopez A, Huck JD, Esterly AT, Azcutia V, Rosen C, Garcia-Milian R, Sefik E, Vidal-Pedrola G, Raduwan H, Chen TY, Arora G, Halene S, Shaw AC, Palm NW, Flavell RA, Parkos CA, Thangamani S, Ring AM, and Fikrig E

Subjects

Animals, Humans, Female, Insect Proteins immunology, Zika Virus Infection immunology, Salivary Proteins and Peptides immunology, Mosquito Vectors immunology, Mosquito Vectors virology, CD47 Antigen, Aedes immunology, Aedes virology, Skin immunology, Skin virology, Zika Virus immunology, Zika Virus physiology

Abstract

The Aedes aegypti mosquito is a vector of many infectious agents, including flaviviruses such as Zika virus. Components of mosquito saliva have pleomorphic effects on the vertebrate host to enhance blood feeding, and these changes also create a favorable niche for pathogen replication and dissemination. Here, we demonstrate that human CD47, which is known to be involved in various immune processes, interacts with a 34-kilodalton mosquito salivary protein named Nest1. Nest1 is up-regulated in blood-fed female A. aegypti and facilitates Zika virus dissemination in human skin explants. Nest1 has a stronger affinity for CD47 than its natural ligand, signal regulatory protein α, competing for binding at the same interface. The interaction between Nest1 with CD47 suppresses phagocytosis by human macrophages and inhibits proinflammatory responses by white blood cells, thereby suppressing antiviral responses in the skin. This interaction elucidates how an arthropod protein alters the human response to promote arbovirus infectivity.

Published

2024

24. Informing an investment case for Japanese encephalitis vaccine introduction in Bangladesh.

Author

Duque MP, Naser AM, Dos Santos GR, O'Driscoll M, Paul KK, Rahman M, Alam MS, Al-Amin HM, Rahman MZ, Hossain ME, Paul RC, Luby SP, Cauchemez S, Vanhomwegen J, Gurley ES, and Salje H

Subjects

Bangladesh epidemiology, Humans, Animals, Seroepidemiologic Studies, Adolescent, Adult, Antibodies, Viral immunology, Antibodies, Viral blood, Child, Male, Female, Young Adult, Child, Preschool, Middle Aged, Culicidae virology, Mosquito Vectors virology, Encephalitis, Japanese epidemiology, Encephalitis, Japanese prevention & control, Encephalitis, Japanese transmission, Japanese Encephalitis Vaccines immunology, Encephalitis Virus, Japanese immunology

Abstract

Japanese encephalitis virus (JEV) is a major threat to human health. Bangladesh is considering introducing a JEV vaccine; however, the investment case is hampered by a limited understanding of key aspects of JEV ecology. We conducted a seroprevalence study in a high-incidence region using an assay that limits cross-reactivity with dengue virus. We also trapped mosquitoes and collected information about potential host species. We used mathematical models to recover risk factors for infection and underlying probabilities of severe disease and death. We observed 19.0% [95% confidence interval (CI):17.1 to 21.1] of JEV antibodies. On average, 0.7% (95% CI: 0.2 to 2.0) of the susceptible population gets infected yearly, with pig proximity being the main human infection risk factor. Our traps captured 10 different mosquito species that have been linked with JEV transmission. We estimated that 1 in 1000 infections results in severe disease, 1 in 10,000 results in death, and 76% of severe cases are missed by surveillance.

Published

2024

25. A comprehensive review of Wolbachia -mediated mechanisms to control dengue virus transmission in Aedes aegypti through innate immune pathways.

Author

Mushtaq I, Sarwar MS, and Munzoor I

Subjects

Animals, Host-Pathogen Interactions immunology, Humans, Signal Transduction immunology, Aedes immunology, Aedes virology, Aedes microbiology, Wolbachia physiology, Wolbachia immunology, Dengue Virus immunology, Dengue Virus physiology, Immunity, Innate, Dengue immunology, Dengue transmission, Dengue virology, Mosquito Vectors immunology, Mosquito Vectors virology, Mosquito Vectors microbiology

Abstract

The Dengue virus (DENV), primarily spread by Aedes aegypti and also by Aedes albopictus in some regions, poses significant global health risks. Alternative techniques are urgently needed because the current control mechanisms are insufficient to reduce the transmission of DENV. Introducing Wolbachia pipientis into Ae. aegypti inhibits DENV transmission, however, the underlying mechanisms are still poorly understood. Innate immune effector upregulation, the regulation of autophagy, and intracellular competition between Wolbachia and DENV for lipids are among the theories for the mechanism of inhibition. Furthermore, mainly three immune pathways Toll, IMD, and JAK/STAT are involved in the host for the suppression of the virus. These pathways are activated by Wolbachia and DENV in the host and are responsible for the upregulation and downregulation of many genes in mosquitoes, which ultimately reduces the titer of the DENV in the host. The functioning of these immune pathways depends upon the Wolbachia , host, and virus interaction. Here, we summarize the current understanding of DENV recognition by the Ae. aegypti 's immune system, aiming to create a comprehensive picture of our knowledge. Additionally, we investigated how Wolbachia regulates the activation of multiple genes associated with immune priming for the reduction of DENV., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Mushtaq, Sarwar and Munzoor.)

Published

2024

26. Aedes aegypti Mosquito Probing Enhances Dengue Virus Infection of Resident Myeloid Cells in Human Skin.

Author

Castanha PMS, Azar SR, Yeung J, Wallace M, Kettenburg G, Watkins SC, Marques ETA, Vasilakis N, and Barratt-Boyes SM

Subjects

Animals, Humans, Female, Keratinocytes virology, Macrophages virology, Aedes virology, Dengue Virus physiology, Skin virology, Virus Replication, Myeloid Cells virology, Dengue virology, Dengue transmission, Mosquito Vectors virology

Abstract

The most prevalent arthropod-borne viruses, including the dengue viruses, are primarily transmitted by infected mosquitoes. However, the dynamics of dengue virus (DENV) infection and dissemination in human skin following Aedes aegypti probing remain poorly understood. We exposed human skin explants to adult female Ae. aegypti mosquitoes following their infection with DENV-2 by intrathoracic injection. Skin explants inoculated with a similar quantity of DENV-2 by a bifurcated needle were used as controls. Quantitative in situ imaging revealed that DENV replication was greatest in keratinocytes in the base of the epidermis, accounting for 50-60% of all infected cells regardless of the route of inoculation. However, DENV inoculation by Ae. aegypti probing resulted in an earlier and increased viral replication in the dermis, infecting twice as many cells at 24 h when compared to needle inoculation. Within the dermis, enhanced replication of DENV by Ae. aegypti infected mosquitoes was mediated by increased local recruitment of skin-resident macrophages, dermal dendritic cells, and epidermal Langerhans cells relative to needle inoculation. An enhanced but less pronounced influx of resident myeloid cells to the site of mosquito probing was also observed in the absence of infection. Ae. aegypti probing also increased recruitment and infection of dermal mast cells. Our findings reveal for the first time that keratinocytes are the primary targets of DENV infection following Ae. aegypti inoculation, even though most of the virus is inoculated into the dermis during probing. The data also show that mosquito probing promotes the local recruitment and infection of skin-resident myeloid cells in the absence of an intact vasculature, indicating that influx of blood-derived neutrophils is not an essential requirement for DENV spread within and out of skin.

Published

2024

27. Eilat virus (EILV) causes superinfection exclusion against West Nile virus (WNV) in a strain-specific manner in Culex tarsalis mosquitoes.

Author

Joseph RE, Bozic J, Werling KL, Krizek RS, Urakova N, and Rasgon JL

Subjects

Animals, Cell Line, West Nile Fever transmission, West Nile Fever virology, Virus Replication, Culex virology, West Nile virus physiology, Mosquito Vectors virology, Superinfection virology

Abstract

West Nile virus (WNV) is the leading cause of mosquito-borne illness in the USA. There are currently no human vaccines or therapies available for WNV, and vector control is the primary strategy used to control WNV transmission. The WNV vector Culex tarsalis is also a competent host for the insect-specific virus (ISV) Eilat virus (EILV). ISVs such as EILV can interact with and cause superinfection exclusion (SIE) against human pathogenic viruses in their shared mosquito host, altering vector competence for these pathogenic viruses. The ability to cause SIE and their host restriction make ISVs a potentially safe tool to target mosquito-borne pathogenic viruses. In the present study, we tested whether EILV causes SIE against WNV in mosquito C6/36 cells and C. tarsalis mosquitoes. The titres of both WNV strains - WN02-1956 and NY99 - were suppressed by EILV in C6/36 cells as early as 48-72 h post-superinfection at both m.o.i. values tested in our study. The titres of WN02-1956 at both m.o.i. values remained suppressed in C6/36 cells, whereas those of NY99 showed some recovery towards the final timepoint. The mechanism of SIE remains unknown, but EILV was found to interfere with NY99 attachment in C6/36 cells, potentially contributing to the suppression of NY99 titres. However, EILV had no effect on the attachment of WN02-1956 or internalization of either WNV strain under superinfection conditions. In C. tarsalis , EILV did not affect the infection rate of either WNV strain at either timepoint. However, in mosquitoes , EILV enhanced NY99 infection titres at 3 days post-superinfection, but this effect disappeared at 7 days post-superinfection. In contrast, WN02-1956 infection titres were suppressed by EILV at 7 days post-superinfection. The dissemination and transmission of both WNV strains were not affected by superinfection with EILV at either timepoint. Overall, EILV caused SIE against both WNV strains in C6/36 cells; however, in C. tarsalis , SIE caused by EILV was strain specific potentially owing to differences in the rate of depletion of shared resources by the individual WNV strains.

Published

2024

28. The microbiota's role in flavivirus control: Rosenbergiella_YN46.

Author

Hu B, Chen J, and Sun Z

Subjects

Animals, Humans, Flavivirus Infections transmission, Flavivirus Infections virology, Flavivirus Infections prevention & control, Zika Virus physiology, Culicidae microbiology, Culicidae virology, Dengue Virus physiology, Gastrointestinal Microbiome physiology, Mosquito Vectors virology, Mosquito Vectors microbiology, Flavivirus physiology

Abstract

The transmission of flaviviruses, such as dengue virus (DENV) and Zika virus (ZIKV), poses a significant threat to global public health. Zhang et al. recently showed that Rosenbergiella sp. YN46 (Rosenbergiella_YN46), a bacterium from the mosquito gut, inhibits flavivirus transmission and thus offers a potential biocontrol strategy with broad public health implications., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

29. Host-Feeding Behavior of Mosquitoes in the Florida Everglades.

Author

Anderson JF, Molaei G, Fish D, Armstrong PM, Khalil N, Brudner S, Misencik MJ, Bransfield A, Olson M, and Andreadis TG

Subjects

Animals, Florida, Mosquito Vectors virology, Mosquito Vectors physiology, Birds virology, Mammals virology, Culicidae virology, Culicidae physiology, Feeding Behavior

Abstract

Background: West Nile virus (WNV), Everglades virus (EVEV), and five species of Orthobunyavirus were isolated from mosquitoes collected in the Everglades in 2016-2017. Prior studies of blood meals of mosquitoes in southern Florida have related findings to acquisition and transmission of EVEV, St. Louis encephalitis virus, and WNV, but not the Orthobunyavirus viruses associated with the subgenus Melanoconion of the genus Culex . Materials and Methods: In the present study, blood-fed mosquitoes were collected in the Everglades in 2016, 2017, 2021, and 2022, and from an industrial site in Naples, FL in 2017. Blood meals were identified to host species by PCR assays using mitochondrial cytochrome b gene. Results: Blood meals were identified from Anopheles crucians complex and 11 mosquito species captured in the Florida Everglades and from 3 species collected from an industrial site. The largest numbers of blood-fed specimens were from Culex nigripalpus , Culex erraticus , Culex cedecei , and Aedes taeniorhynchus . Cx. erraticus fed on mammals, birds, and reptiles, particularly American alligator. This mosquito species could transmit WNV to American alligator in the wild. Cx. nigripalpus acquired blood meals primarily from birds and mammals and frequently fed on medium-sized mammals and white-tailed deer. Water and wading birds were the primary avian hosts for Cx. nigripalpus and Cx. erraticus in the Everglades. Wading birds are susceptible to WNV and could serve as reservoir hosts. Cx. cedecei fed on five species of rodents, particularly black and hispid cotton rats. EVEV and three different species of Orthobunyavirus have been isolated from the hispid cotton rat and Cx. cedecei in the Everglades. Cx. cedecei is likely acquiring and transmitting these viruses among hispid cotton rats and other rodents. The marsh rabbit was a frequent host for An. crucians complex. An. crucians complex, and other species could acquire Tensaw virus from rabbits. Conclusions: Our study contributes to a better understanding of the host and viral associations of mosquito species in southwestern Florida.

Published

2024

30. Alpha-mannosidase-2 modulates arbovirus infection in a pathogen- and Wolbachia-specific manner in Aedes aegypti mosquitoes.

Author

Urakova N, Joseph RE, Huntsinger A, Macias VM, Jones MJ, Sigle LT, Li M, Akbari OS, Xi Z, Lymperopoulos K, Sayre RT, McGraw EA, and Rasgon JL

Subjects

Animals, Dengue Virus physiology, Arboviruses physiology, Mosquito Vectors microbiology, Mosquito Vectors virology, Mosquito Vectors genetics, Female, Arbovirus Infections transmission, Insect Proteins metabolism, Insect Proteins genetics, CRISPR-Cas Systems, Aedes microbiology, Aedes virology, Aedes genetics, Wolbachia physiology, alpha-Mannosidase metabolism, alpha-Mannosidase genetics

Abstract

Multiple Wolbachia strains can block pathogen infection, replication and/or transmission in Aedes aegypti mosquitoes under both laboratory and field conditions. However, Wolbachia effects on pathogens can be highly variable across systems and the factors governing this variability are not well understood. It is increasingly clear that the mosquito host is not a passive player in which Wolbachia governs pathogen transmission phenotypes; rather, the genetics of the host can significantly modulate Wolbachia-mediated pathogen blocking. Specifically, previous work linked variation in Wolbachia pathogen blocking to polymorphisms in the mosquito alpha-mannosidase-2 (αMan2) gene. Here we use CRISPR-Cas9 mutagenesis to functionally test this association. We developed αMan2 knockouts and examined effects on both Wolbachia and virus levels, using dengue virus (DENV; Flaviviridae) and Mayaro virus (MAYV; Togaviridae). Wolbachia titres were significantly elevated in αMan2 knockout (KO) mosquitoes, but there were complex interactions with virus infection and replication. In Wolbachia-uninfected mosquitoes, the αMan2 KO mutation was associated with decreased DENV titres, but in a Wolbachia-infected background, the αMan2 KO mutation significantly increased virus titres. In contrast, the αMan2 KO mutation significantly increased MAYV replication in Wolbachia-uninfected mosquitoes and did not affect Wolbachia-mediated virus blocking. These results demonstrate that αMan2 modulates arbovirus infection in A. aegypti mosquitoes in a pathogen- and Wolbachia-specific manner, and that Wolbachia-mediated pathogen blocking is a complex phenotype dependent on the mosquito host genotype and the pathogen. These results have a significant impact for the design and use of Wolbachia-based strategies to control vector-borne pathogens., (© 2024 The Authors. Insect Molecular Biology published by John Wiley & Sons Ltd on behalf of Royal Entomological Society.)

Published

2024

31. Tripartite interactions between viruses, parasites, and mosquitoes.

Author

Schinkel M, Bousema T, and van Rij RP

Subjects

Animals, Insect Viruses physiology, Malaria transmission, Plasmodium physiology, Mosquito Vectors virology, Mosquito Vectors physiology, Anopheles virology, Anopheles parasitology

Abstract

Mosquito-borne diseases have a major impact on global human health. Biological agents that colonize the mosquito vector are increasingly explored as an intervention strategy to prevent vector-borne disease transmission. For instance, the release of mosquitoes carrying the endosymbiotic bacterium Wolbachia effectively reduced dengue virus incidence and disease. Insect-specific viruses are likewise considered as biocontrol agents against vector-borne diseases. While most studies focused on insect-specific viruses as an intervention against arthropod-borne viruses, we here consider whether mosquito-specific viruses may affect the transmission of the malaria-causing Plasmodium parasite by Anopheles mosquitoes. Although there is no direct experimental evidence addressing this question, we found that viral infections in dipteran insects activate some of the immune pathways that are antiparasitic in Anopheles. These findings suggest that indirect virus-parasite interactions could occur and that insect-specific viruses may modulate malaria transmission. Tripartite interactions between viruses, parasites, and Anopheles mosquitoes thus merit further investigation., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2024

32. Isolation and Genomic Characterization of Kadipiro Virus from Mosquitoes in Yunnan, China.

Author

Yang Z, He Y, Li S, Meng J, Li N, and Wang J

Subjects

Animals, China, Culicidae virology, Reoviridae genetics, Reoviridae isolation & purification, Reoviridae classification, Cell Line, Aedes virology, Culex virology, Mosquito Vectors virology, RNA, Viral genetics, Genome, Viral, Phylogeny

Abstract

Background: Kadipiro virus (KDV) is a species of the new 12 segmented RNA virus grouped under the genus Seadornavirus within the Reoviridae family. It has previously been isolated or detected from mosquito , Odonata , and bat feces in Indonesia, China, and Denmark, respectively. Here, we describe the isolation and characterization of a viral strain from mosquitoes in Yunnan Province, China. Methods: Mosquitoes were collected overnight using light traps in Shizong county, on July 17, 2023. Virus was isolated from the mosquito homogenate and grown using baby hamster kidney and Aedes albopictus (C6/36) cells. Preliminary identification of the virus was performed by agarose gel electrophoresis (AGE). The full-genome sequences of the strain were determined by full-length amplification of cDNAs and sequenced using next-generation sequencing. Results: We isolated a viral strain (SZ_M48) from mosquitoes ( Culex tritaeniorhynchus Giles ) that caused cytopathogenic effects in C6/36 cells. AGE analysis indicated a genome consisting of 12 segments of double-stranded RNA that demonstrated a "6-5-1" pattern, similar to the migrating bands of KDV. Phylogenetic analysis based on the full-genome sequence revealed that SZ_M48 is more clustered with KDV isolates from Hubei and Shangdong in China than with Indonesian and Danish strains. The identity between SZ_M48 and SDKL1625 (Shandong, China) is slightly lower than that of QTM27331 (Hubei, China), and the identity with JKT-7075 (Indonesia) and 21164-6/M.dau/DK (Denmark) is the lowest. Conclusion: The full-genome sequence of the new KDV strain described in this study may be useful for surveillance of the evolutionary characteristics of KDVs. Moreover, these findings extend the knowledge about the genomic diversity, potential vectors, and the distribution of KDVs in China.

Published

2024

33. Demographic inference from the mt-DNA COI gene and wing geometry of Culex gelidus (Diptera: Culicidae), an important vector of Japanese encephalitis in Thailand.

Author

Chaiphongpachara T, Laojun S, Changbunjong T, Wichit S, and Villarroel PMS

Subjects

Animals, Thailand, DNA, Mitochondrial genetics, Genetic Variation, Haplotypes, Female, Encephalitis, Japanese virology, Encephalitis Virus, Japanese genetics, Male, Phylogeny, Culex genetics, Culex virology, Culex anatomy & histology, Electron Transport Complex IV genetics, Mosquito Vectors genetics, Mosquito Vectors anatomy & histology, Mosquito Vectors virology, Wings, Animal anatomy & histology

Abstract

Culex gelidus (Diptera: Culicidae), an important vector of the Japanese encephalitis virus (JEV), contributes to human viral encephalitis in many Asian countries, including Thailand. This study represents the first investigation of the demographic patterns of Cx. gelidus populations in Thailand using cytochrome c oxidase subunit I (COI) gene analysis and wing geometric morphometrics (GM). Mosquitoes were collected from 10 provinces across six regions of Thailand in 2022. Analysis of the COI sequences (n = 182) indicated high haplotype diversity (0.882) and low nucleotide diversity (0.006), with 72 haplotypes identified. The haplotype network demonstrated no profound splits among the geographic populations. Neutral tests, including Tajima's D and Fu's Fs, displayed negative values, with a significant result observed for Fu's Fs (-33.048, p < 0.05). The mismatch distribution analysis indicated that the population does not statistically deviate from a model of sudden population expansion (SSD = 0.010, p > 0.05; Rg = 0.022, p > 0.05). The estimations suggest that the Cx. gelidus population in Thailand began its expansion approximately between 459,243 and 707,011 years ago. The Mantel test showed no significant relationship between genetic and geographic distances (r = 0.048, p > 0.05). Significant phenotypic differences (based on wing shape) were observed among most populations. Additionally, in this study, we found no significant relationships between phenotypic and genetic distances (r = 0.250, p > 0.05). Understanding the genetic and morphological dynamics of Cx. gelidus is vital for developing targeted surveillance and vector control measures. This knowledge will also help to predict how future environmental changes might affect these populations, thereby informing long-term vector management strategies., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

34. Collecting, Storing, and Hatching Aedes aegypti Eggs.

Author

Rose NH, Shepard JJ, and Ayala D

Subjects

Animals, Specimen Handling methods, Mosquito Vectors physiology, Mosquito Vectors virology, Aedes growth & development, Aedes physiology, Aedes virology, Ovum

Abstract

Laboratory study of natural populations of mosquitoes can play a key role in determining the underlying causes of variation in burdens of mosquito-borne disease. Aedes aegypti is the main vector of the viruses that cause dengue, chikungunya, Zika, and yellow fever, making it a high priority for laboratory study. Ae. aegypti eggs provide an ideal starting point for new laboratory colonies. Eggs can be collected using ovicups, which are small plastic cups lined with seed-germination paper and partially filled with leaf-infused H 2 O. Once collected, dry eggs will remain viable for months and can be safely transported long distances back to the laboratory as long as they are properly stored. This protocol provides step-by-step instructions for preparing for collecting, storing, and hatching Ae. aegypti eggs and has successfully yielded laboratory colonies from locations across both the native and invasive range of this species., (© 2024 Cold Spring Harbor Laboratory Press.)

Published

2024

35. Virus-blocking mosquitoes take flight in the fight against dengue.

Author

Crawford JE

Subjects

Animals, Humans, Wolbachia physiology, Pest Control, Biological methods, Aircraft, Robotics instrumentation, Culicidae virology, Culicidae physiology, Dengue prevention & control, Dengue transmission, Dengue Virus physiology, Mosquito Vectors virology, Mosquito Control methods, Aedes virology, Aedes microbiology, Aedes physiology

Abstract

Drone-based mosquito releases facilitate the introduction of dengue-blocking bacteria in wild mosquito populations.

Published

2024

36. Cytoskeleton-associated gelsolin responds to the midgut distention process in saline meal-fed Aedes aegypti and affects arbovirus dissemination from the midgut.

Author

Cui Y, Megawati D, Lin J, Rehard DG, Grant DG, Liu P, Jurkevich A, Reid WR, Mooney BP, and Franz AWE

Subjects

Animals, Cytoskeleton metabolism, Female, Mosquito Vectors virology, Mosquito Vectors metabolism, Proteomics methods, Zika Virus physiology, Aedes virology, Aedes metabolism, Gelsolin metabolism, Gelsolin genetics, Insect Proteins metabolism, Insect Proteins genetics, Arboviruses physiology

Abstract

The mosquito, Aedes aegypti, is the principal vector for several arboviruses. The mosquito midgut is the initial tissue that gets infected with an arbovirus acquired along with a blood meal from a vertebrate host. Blood meal ingestion leads to midgut tissue distention thereby increasing the pore size of the surrounding basal lamina. This allows newly synthesized virions to exit the midgut by traversing the distended basal lamina to infect secondary tissues of the mosquito. We conducted a quantitative label-free proteomic time course analysis with saline meal-fed Ae. aegypti females to identify host factors involved in midgut tissue distention. Around 2000 proteins were detected during each of the seven sampling time points and 164 of those were uniquely expressed. Forty-five of 97 differentially expressed proteins were upregulated during the 96-h time course and most of those were involved in cytoskeleton modulation, metabolic activity, and vesicle/vacuole formation. The F-actin-modulating Ae. aegypti (Aa)-gelsolin was selected for further functional studies. Stable knockout of Aa-gelsolin resulted in a mosquito line, which showed distorted actin filaments in midgut-associated tissues likely due to diminished F-actin processing by gelsolin. Zika virus dissemination from the midgut of these mosquitoes was diminished and delayed. The loss of Aa-gelsolin function was associated with an increased induction of apoptosis in midgut tissue indicating an involvement of Aa-gelsolin in apoptotic signaling in mosquitoes. Here, we used proteomics to discover a novel host factor, Aa-gelsolin, which affects the midgut escape barrier for arboviruses in mosquitoes and apoptotic signaling in the midgut., (© 2024 The Author(s). The FASEB Journal published by Wiley Periodicals LLC on behalf of Federation of American Societies for Experimental Biology.)

Published

2024

37. Metatranscriptomic analysis of common mosquito vector species in the Canadian Prairies.

Author

Baril C and Cassone BJ

Subjects

Animals, Viruses genetics, Viruses classification, Viruses isolation & purification, Manitoba, Microbiota genetics, Bacteria classification, Bacteria genetics, Bacteria isolation & purification, Bacteria virology, Canada, Transcriptome, Mosquito Vectors microbiology, Mosquito Vectors virology, Culicidae microbiology, Culicidae virology

Abstract

The microbiome plays vital roles in the life history of mosquitoes, including their development, immunity, longevity, and vector competence. Recent advances in sequencing technologies have allowed for detailed exploration into the diverse microorganisms harbored by these medically important insects. Although these meta-studies have cataloged the microbiomes of mosquitoes in several continents, much of the information currently available for North America is limited to the state of California. In this study, we collected >35,000 mosquitoes throughout Manitoba, Canada, over a 3-year period and then harnessed RNA sequencing and targeted reverse transcriptase-PCR to characterize the microbiomes of the eight most pervasive and important vector and pest species. The consensus microbiome of each species was overwhelmingly composed of viruses but also included fungi, bacteria, protozoa, and parasitic invertebrates. The microbial assemblages were heterogeneous between species, even within the same genus. We detected notable pathogens, including the causal agents of Cache Valley Fever, avian malaria, and canine heartworm. The remaining microbiome consisted largely of putatively insect-specific viruses that are not well characterized, including 17 newly discovered viruses from 10 different families. Future research should focus on evaluating the potential application of these viruses in biocontrol, as biomarkers, and/or in disrupting mosquito vectorial capacity. Interestingly, we also detected viruses that naturally infect honeybees and thrips, which were presumably acquired indirectly through nectar foraging behaviors. Overall, we provide the first comprehensive catalog of the microorganisms harbored by the most common and important mosquito vectors and pests in the Canadian Prairies., Importance: Mosquitoes are the most dangerous animals on the planet, responsible for over 800,000 deaths per year globally. This is because they carry and transmit a plethora of human disease-causing microorganisms, such as West Nile virus and the malaria parasite. Recent innovations in nucleic acid sequencing technologies have enabled researchers unparalleled opportunities to characterize the suite of microorganisms harbored by different mosquito species, including the causal agents of disease. In our study, we carried out 3 years of intensive mosquito surveillance in Canada. We collected and characterized the microorganisms harbored by >35,000 mosquitoes, including the identification of the agents of Cache Valley fever, avian malaria, and canine heartworm. We also detected insect-specific viruses and discovered 17 new viruses that have never been reported. This study, which is the first of its kind in Canada and one of only a handful globally, will greatly aid in future infectious disease research., Competing Interests: The authors declare no conflict of interest.

Published

2024

38. Larval Competition between Aedes and Culex Mosquitoes Carries over to Higher Arboviral Infection during Their Adult Stage.

Author

Vanslembrouck A, Jansen S, De Witte J, Janssens C, Vereecken S, Helms M, Lange U, Lühken R, Schmidt-Chanasit J, Heitmann A, and Müller R

Subjects

Animals, Arbovirus Infections transmission, Arbovirus Infections virology, Arboviruses physiology, West Nile virus physiology, Female, Chikungunya virus physiology, Encephalitis Virus, Japanese physiology, Culex virology, Culex growth & development, Aedes virology, Aedes growth & development, Aedes physiology, Larva virology, Mosquito Vectors virology, Mosquito Vectors growth & development

Abstract

The common house mosquito ( Culex pipiens ) is a native vector for West Nile virus (WNV). Invasive species like the tiger mosquito ( Aedes albopictus ) and Asian bush mosquito ( Aedes japonicus ) are rapidly spreading through Europe, posing a major threat as vectors for dengue, chikungunya (CHIKV), and Japanese encephalitis virus (JEV). These mosquitoes share a similar ecological niche as larvae, but the carry-over effects of aquatic larval interactions to the terrestrial adult stage remain largely unknown and their medical relevance requires further investigation. This study examines the context dependency of larval interactions among Aedes albopictus , Aedes japonicus , and Culex pipiens . The survival, development time, growth, and energetic storage were measured in different European populations within density-response (intraspecific) experiments and replacement (interspecific) experiments at 20 °C and 26 °C. Overall, Ae. japonicus was the weakest competitor, while competition between Ae. albopictus and Cx. pipiens varied with temperature. Adults emerging from this larval competition were infected as follows: Culex pipiens with WNV, Ae. albopictus with CHIKV, and Ae. japonicus with JEV. While no JEV infection was observed, mosquitoes experiencing interspecific interactions during their larval stages exhibited higher infection rates and viral RNA titers for CHIKV and WNV. This increased susceptibility to viral infection after larval competition suggests a higher risk of arbovirus transmission in co-occurring populations.

Published

2024

39. Risk of arboviral transmission and insecticide resistance status of Aedes mosquitoes during a yellow fever outbreak in Ghana.

Author

Owusu-Akyaw M, Owusu-Asenso CM, Abdulai A, Mohammed AR, Sraku IK, Boadu EN, Aduhene E, Attah SK, and Afrane YA

Subjects

Animals, Ghana epidemiology, Humans, Female, Yellow fever virus genetics, Yellow fever virus drug effects, Aedes virology, Aedes drug effects, Aedes genetics, Insecticide Resistance genetics, Disease Outbreaks, Yellow Fever transmission, Yellow Fever epidemiology, Mosquito Vectors virology, Mosquito Vectors genetics, Mosquito Vectors drug effects, Insecticides pharmacology

Abstract

Background: In late 2021, Ghana was hit by a Yellow Fever outbreak that started in two districts in the Savannah region and spread to several other Districts in three regions. Yellow fever is endemic in Ghana. However, there is currently no structured vector control programme for Aedes the arboviral vector in Ghana. Knowledge of Aedes bionomics and insecticide susceptibility status is important to control the vectors. This study therefore sought to determine Aedes vector bionomics and their insecticide resistance status during a yellow fever outbreak., Methods: The study was performed in two yellow fever outbreak sites (Wenchi, Larabanga) and two non-outbreak sites (Kpalsogu, Pagaza) in Ghana. Immature Aedes mosquitoes were sampled from water-holding containers in and around human habitations. The risk of disease transmission was determined in each site using stegomyia indices. Adult Aedes mosquitoes were sampled using Biogents Sentinel (BG) traps, Human Landing Catch (HLC), and Prokopack (PPK) aspirators. Phenotypic resistance to permethrin, deltamethrin and pirimiphos-methyl was determined with WHO susceptibility tests using Aedes mosquitoes collected as larvae and reared into adults. Knockdown resistance (kdr) mutations were detected using allele-specific multiplex PCR., Results: Among the 2,664 immature Aedes sampled, more than 60% were found in car tyres. Larabanga, an outbreak site, was classified as a high-risk zone for the Yellow Fever outbreak (BI: 84%, CI: 26.4%). Out of 1,507 adult Aedes mosquitoes collected, Aedes aegypti was the predominant vector species (92%). A significantly high abundance of Aedes mosquitoes was observed during the dry season (61.2%) and outdoors (60.6%) (P < 0.001). Moderate to high resistance to deltamethrin was observed in all sites (33.75% to 70%). Moderate resistance to pirimiphos-methyl (65%) was observed in Kpalsogu. Aedes mosquitoes from Larabanga were susceptible (98%) to permethrin. The F1534C kdr, V1016I kdr and V410 kdr alleles were present in all the sites with frequencies between (0.05-0.92). The outbreak sites had significantly higher allele frequencies of F1534C and V1016I respectively compared to non-outbreak sites (P < 0.001)., Conclusion: This study indicates that Aedes mosquitoes in Ghana pose a significant risk to public health. Hence there is a need to continue monitoring these vectors to develop an effective control strategy., (© 2024. The Author(s).)

Published

2024

40. Current and lagged associations of meteorological variables and Aedes mosquito indices with dengue incidence in the Philippines.

Author

Cruz EI, Salazar FV, Aguila AMA, Villaruel-Jagmis MV, Ramos J, and Paul RE

Subjects

Philippines epidemiology, Animals, Incidence, Humans, Mosquito Vectors virology, Mosquito Vectors physiology, Meteorological Concepts, Temperature, Dengue epidemiology, Dengue transmission, Aedes virology, Aedes physiology

Abstract

Background: Dengue is an increasing health burden that has spread throughout the tropics and sub-tropics. There is currently no effective vaccine and control is only possible through integrated vector management. Early warning systems (EWS) to alert potential dengue outbreaks are currently being explored but despite showing promise are yet to come to fruition. This study addresses the association of meteorological variables with both mosquito indices and dengue incidences and assesses the added value of additionally using mosquito indices for predicting dengue incidences., Methodology/principal Findings: Entomological surveys were carried out monthly for 14 months in six sites spread across three environmentally different cities of the Philippines. Meteorological and dengue data were acquired. Non-linear generalized additive models were fitted to test associations of the meteorological variables with both mosquito indices and dengue cases. Rain and the diurnal temperature range (DTR) contributed most to explaining the variation in both mosquito indices and number of dengue cases. DTR and minimum temperature also explained variation in dengue cases occurring one and two months later and may offer potentially useful variables for an EWS. The number of adult mosquitoes did associate with the number of dengue cases, but contributed no additional value to meteorological variables for explaining variation in dengue cases., Conclusions/significance: The use of meteorological variables to predict future risk of dengue holds promise. The lack of added value of using mosquito indices confirms several previous studies and given the onerous nature of obtaining such information, more effort should be placed on improving meteorological information at a finer scale to evaluate efficacy in early warning of dengue outbreaks., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Cruz et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

41. Bloodmeals fuel dengue virus replication in the female mosquito Aedes aegypti .

Author

Huang Y-N, Lee K-Y, Shiao S-H, Chen C-H, Yu G-Y, and Yu M-J

Subjects

Animals, Female, Oxidative Phosphorylation, Mice, Mosquito Vectors virology, Adenosine Triphosphate metabolism, Aedes virology, Virus Replication, Dengue Virus physiology, Dengue transmission, Dengue virology, Dengue metabolism

Abstract

Vector competence defines the ability of a vector to acquire, host, and transmit a pathogen. Understanding the molecular determinants of the mosquitos' competence to host dengue virus (DENV) holds promise to prevent its transmission. To this end, we employed RNA-seq to profile mRNA transcripts of the female Aedes aegypti mosquitos feeding on naïve vs viremic mouse. While most transcripts (12,634) did not change their abundances, 360 transcripts showed decreases. Biological pathway analysis revealed representatives of the decreased transcripts involved in the wnt signaling pathway and hippo signaling pathway. One thousand three hundred fourteen transcripts showed increases in abundance and participate in 21 biological pathways including amino acid metabolism, carbon metabolism, fatty acid metabolism, and oxidative phosphorylation. Inhibition of oxidative phosphorylation with antimycin A reduced oxidative phosphorylation activity and ATP concentration associated with reduced DENV replication in the Aedes aegypti cells. Antimycin A did not affect the amounts of the non-structural proteins 3 and 5, two major components of the replication complex. Ribavirin, an agent that reduces GTP concentration, recapitulated the effects of reduced ATP concentration on DENV replication. Knocking down one of the oxidative phosphorylation components, ATP synthase subunit β, reduced DENV replication in the mosquitos. In summary, our results suggest that DENV enhances metabolic pathways in the female Aedes aegypti mosquitos to supply nutrients and energy for virus replication. ATP synthase subunit β knockdown might be exploited to reduce the mosquitos' competence to host and transmit DENV., Importance: Through evolution, the mosquito-borne viruses have adapted to the blood-feeding behaviors of their opportunist hosts to fulfill a complete lifecycle in humans and mosquitos. Disruption in the mosquitos' ability to host these viruses offers strategies to prevent diseases caused by them. With the advent of genomic tools, we discovered that dengue virus (DENV) benefited from the female mosquitos' bloodmeals for metabolic and energetic supplies for replication. Chemical or genetic disruption in these supplies reduced DENV replication in the female mosquitos. Our discovery can be exploited to produce genetically modified mosquitos, in which DENV infection leads to disruption in the supplies and thereby reduces replication and transmission. Our discovery might be extrapolated to prevent mosquito-borne virus transmission and the diseases they cause., Competing Interests: The authors declare no conflict of interest.

Published

2024

42. Aedes Mosquito Virome in Southwestern Cameroon: Lack of Core Virome, But a Very Rich and Diverse Virome in Ae. africanus Compared to Other Aedes Species.

Author

Mbigha Donfack KC, De Coninck L, Ghogomu SM, and Matthijnssens J

Subjects

Animals, Cameroon, Metagenomics, Phylogeny, Genome, Viral, Arboviruses genetics, Arboviruses classification, Arboviruses isolation & purification, Aedes virology, Virome genetics, Mosquito Vectors virology

Abstract

In Cameroon, Aedes mosquitoes transmit various arboviruses, posing significant health risks. We aimed to characterize the Aedes virome in southwestern Cameroon and identify potential core viruses which might be associated with vector competence. A total of 398 Aedes mosquitoes were collected from four locations (Bafoussam, Buea, Edea, and Yaounde). Aedes albopictus dominated all sites except for Bafoussam, where Aedes africanus prevailed. Metagenomic analyses of the mosquitoes grouped per species into 54 pools revealed notable differences in the eukaryotic viromes between Ae. africanus and Ae. albopictus , with the former exhibiting greater richness and diversity. Thirty-seven eukaryotic virus species from 16 families were identified, including six novel viruses with near complete genome sequences. Seven viruses were further quantified in individual mosquitoes via qRT-PCR. Although none of them could be identified as core viruses, Guangzhou sobemo-like virus and Bafoussam mosquito solemovirus, were highly prevalent regionally in Ae. albopictus and Ae. africanus , respectively. This study highlights the diverse eukaryotic virome of Aedes species in southwestern Cameroon. Despite their shared genus, Aedes species exhibit limited viral sharing, with varying viral abundance and prevalence across locations. Ae. africanus , an understudied vector, harbors a rich and diverse virome, suggesting potential implications for arbovirus vector competence.

Published

2024

43. Study on the temporal and spatial distribution of Culex mosquitoes in Hanoi, Vietnam.

Author

Krambrich J, Nguyen-Tien T, Pham-Thanh L, Dang-Xuan S, Andersson E, Höller P, Vu DT, Tran SH, Vu LT, Akaberi D, Ling J, Pettersson JH, Hesson JC, Lindahl JF, and Lundkvist Å

Subjects

Animals, Vietnam, Female, Spatio-Temporal Analysis, Male, Encephalitis Virus, Japanese isolation & purification, Encephalitis Virus, Japanese genetics, Seasons, Culex virology, Mosquito Vectors virology, Mosquito Vectors physiology

Abstract

Arboviruses transmitted by mosquitoes, including Japanese encephalitis virus (JEV), present a substantial global health threat. JEV is transmitted by mosquitoes in the genus Culex, which are common in both urban and rural areas in Vietnam. In 2020, we conducted a 1-year survey of Culex mosquito abundance in urban, suburban, and peri-urban areas of Hanoi using CDC-light traps. Mosquitoes were identified to species and sorted into pools based on species, sex, and trap location. The mosquito pools were also investigated by RT-qPCR for detection of JEV. In total, 4829 mosquitoes were collected over a total of 455 trap-nights, across 13 months. Collected mosquitoes included Culex, Aedes, Anopheles, and Mansonia species. Culex mosquitoes, primarily Cx. quinquefasciatus, predominated, especially in peri-urban areas. Most Culex mosquitoes were caught in the early months of the year. The distribution and abundance of mosquitoes exhibited variations across urban, suburban, and peri-urban sites, emphasizing the influence of environmental factors such as degree of urbanization, temperature and humidity on Culex abundance. No JEV was detected in the mosquito pools. This study establishes baseline knowledge of Culex abundance and temporal variation, which is crucial for understanding the potential for JEV transmission in Hanoi., (© 2024. The Author(s).)

Published

2024

44. Culex -Transmitted Diseases: Mechanisms, Impact, and Future Control Strategies using Wolbachia .

Author

Madhav M, Blasdell KR, Trewin B, Paradkar PN, and López-Denman AJ

Subjects

Animals, Humans, Wolbachia physiology, Culex microbiology, Culex virology, Mosquito Vectors microbiology, Mosquito Vectors virology, Mosquito Control methods

Abstract

Mosquitoes of the Culex genus are responsible for a large burden of zoonotic virus transmission globally. Collectively, they play a significant role in the transmission of medically significant diseases such as Japanese encephalitis virus and West Nile virus. Climate change, global trade, habitat transformation and increased urbanisation are leading to the establishment of Culex mosquitoes in new geographical regions. These novel mosquito incursions are intensifying concerns about the emergence of Culex -transmitted diseases and outbreaks in previously unaffected areas. New mosquito control methods are currently being developed and deployed globally. Understanding the complex interaction between pathogens and mosquitoes is essential for developing new control strategies for Culex species mosquitoes. This article reviews the role of Culex mosquitos as vectors of zoonotic disease, discussing the transmission of viruses across different species, and the potential use of Wolbachia technologies to control disease spread. By leveraging the insights gained from recent successful field trials of Wolbachia against Aedes -borne diseases, we comprehensively discuss the feasibility of using this technique to control Culex mosquitoes and the potential for the development of next generational Wolbachia -based control methods.

Published

2024

45. Transovarial Transmission of Cell-Fusing Agent Virus in Naturally Infected Aedes aegypti Mosquitoes.

Author

Nag DK and Efner KJ

Subjects

Animals, Female, Virus Replication, Arboviruses physiology, Aedes virology, Mosquito Vectors virology, Ovary virology

Abstract

Mosquito-borne arboviruses include several pathogens that are responsible for many diseases of significant public health burden. Mosquitoes also host many insect-specific viruses that cannot replicate in vertebrate cells. These insect-specific viruses persist in nature predominantly via vertical transmission (VT), and they exhibit high VT rates (VTRs). Cell-fusing agent virus (CFAV), an insect-specific orthoflavivirus, shows high VTRs in naturally infected mosquitoes but not in artificially infected mosquitoes. To determine whether the high VTRs are due to transovarial transmission, we investigated VT and ovary infection patterns in naturally CFAV-infected Aedes aegypti (Bangkok) mosquitoes. VT was monitored by detecting CFAV among the progeny by reverse-transcription polymerase chain reaction and ovary infection was determined by in situ hybridization using a virus-specific probe. We showed that in CFAV-positive mosquitoes, ovarian follicles were infected, suggesting that VT occurs by transovarial transmission in naturally infected mosquitoes. Additionally, mosquitoes harbored dormant, non-replicative CFAV that remained below the detection level. These results suggested that CFAV persists via VT in nature and has the potential to remain dormant in diapausing mosquitoes during unfavorable conditions. Understanding this VT mechanism is crucial for comprehending the persistence of insect-specific viruses (and potentially dual-host arboviruses) in their natural environment.

Published

2024

46. The effect of repeat feeding on dengue virus transmission potential in Wolbachia-infected Aedes aegypti following extended egg quiescence.

Author

Lau MJ, Valdez AR, Jones MJ, Aranson I, Hoffmann AA, and McGraw EA

Subjects

Animals, Female, Viral Load, Ovum virology, Ovum microbiology, Aedes microbiology, Aedes virology, Aedes physiology, Wolbachia physiology, Dengue Virus physiology, Mosquito Vectors microbiology, Mosquito Vectors virology, Mosquito Vectors physiology, Dengue transmission, Feeding Behavior

Abstract

As Wolbachia pipientis is more widely being released into field populations of Aedes aegypti for disease control, the ability to select the appropriate strain for differing environments is increasingly important. A previous study revealed that longer-term quiescence in the egg phase reduced the fertility of mosquitoes, especially those harboring the wAlbB Wolbachia strain. This infertility was also associated with a greater biting rate. Here, we attempt to quantify the effect of this heightened biting behavior on the transmission potential of the dengue virus using a combination of assays for fitness, probing behavior, and vector competence, allowing repeat feeding, and incorporate these effects in a model of R0. We show that Wolbachia-infected infertile mosquitoes are more interested in feeding almost immediately after an initial blood meal relative to wild type and Wolbachia-infected fertile mosquitoes and that these differences continue for up to 8 days over the period we measured. As a result, the infertile Wolbachia mosquitoes have higher virus prevalence and loads than Wolbachia-fertile mosquitoes. We saw limited evidence of Wolbachia-mediated blocking in the disseminated tissue (legs) in terms of prevalence but did see reduced viral loads. Using a previously published estimate of the extrinsic incubation period, we demonstrate that the effect of repeat feeding/infertility is insufficient to overcome the effects of Wolbachia-mediated blocking on R0. These estimates are very conservative, however, and we posit that future studies should empirically measure EIP under a repeat feeding model. Our findings echo previous work where periods of extensive egg quiescence affected the reproductive success of Wolbachia-infected Ae. aegypti. Additionally, we show that increased biting behavior in association with this infertility in Wolbachia-infected mosquitoes may drive greater vector competence. These relationships require further exploration, given their ability to affect the success of field releases of Wolbachia for human disease reduction in drier climates where longer egg quiescence periods are expected., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Lau et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

47. Population genetic structure of Culex tritaeniorhynchus in different types of climatic zones in China.

Author

Zhang Y, Wang H, Du J, Wang Y, Zang C, Cheng P, Liu L, Zhang C, Lou Z, Lei J, Wu J, Gong M, and Liu H

Subjects

Animals, China, Climate, Genetic Variation, Genetics, Population, Wolbachia genetics, Mosquito Vectors genetics, Mosquito Vectors virology, Mosquito Vectors microbiology, Electron Transport Complex IV genetics, Culex genetics, Culex virology, Culex microbiology, Phylogeny, Haplotypes

Abstract

Background: Culex tritaeniorhynchus is widely distributed in China, from Hainan Island in the south to Heilongjiang in the north, covering tropical, subtropical, and temperate climate zones. Culex tritaeniorhynchus carries 19 types of arboviruses. It is the main vector of the Japanese encephalitis virus (JEV), posing a serious threat to human health. Understanding the effects of environmental factors on Culex tritaeniorhynchus can provide important insights into its population structure or isolation patterns, which is currently unclear., Results: In total, 138 COI haplotypes were detected in the 552 amplified sequences, and the haplotype diversity (Hd) value increased from temperate (0.534) to tropical (0.979) regions. The haplotype phylogeny analysis revealed that the haplotypes were divided into two high-support evolutionary branches. Temperate populations were predominantly distributed in evolutionary branch II, showing some genetic isolation from tropical/subtropical populations and less gene flow between groups. The neutral test results of HNQH (Qionghai) and HNHK(Haikou) populations were negative (P < 0.05), indicating many low-frequency mutations in the populations and that the populations might be in the process of expansion. Moreover, Wolbachia infection was detected only in SDJN (Jining) (2.24%), and all Wolbachia genotypes belonged to supergroup B. To understand the influence of environmental factors on mosquito-borne viruses, we examined the prevalence of Culex tritaeniorhynchus infection in three ecological environments in Shandong Province. We discovered that the incidence of JEV infection was notably greater in Culex tritaeniorhynchus from lotus ponds compared to those from irrigation canal regions. In this study, the overall JEV infection rate was 15.27 per 1000, suggesting the current risk of Japanese encephalitis outbreaks in Shandong Province., Conclusions: Tropical and subtropical populations of Culex tritaeniorhynchus showed higher genetic diversity and those climatic conditions provide great advantages for the establishment and expansion of Culex tritaeniorhynchus. There are differences in JEV infection rates in wild populations of Culex tritaeniorhynchus under different ecological conditions. Our results suggest a complex interplay of genetic differentiation, population structure, and environmental factors in shaping the dynamics of Culex tritaeniorhynchus. The low prevalence of Wolbachia in wild populations may reflect the recent presence of Wolbachia invasion in Culex tritaeniorhynchus., (© 2024. The Author(s).)

Published

2024

48. Overwintering West Nile virus in active Culex pipiens mosquito populations in Greece.

Author

Balatsos G, Beleri S, Tegos N, Bisia M, Karras V, Zavitsanou E, Papachristos DP, Papadopoulos NT, Michaelakis A, and Patsoula E

Subjects

Animals, Greece epidemiology, Real-Time Polymerase Chain Reaction, Culex virology, West Nile virus genetics, West Nile virus isolation & purification, West Nile virus physiology, Seasons, West Nile Fever transmission, West Nile Fever epidemiology, West Nile Fever virology, Mosquito Vectors virology

Abstract

The flavivirus West Nile Virus (WNV), which is transmitted by mosquitoes, poses a significant threat to both humans and animals, and its outbreaks often challenge public health in Europe and other continents. In recent years, there is an increasing trend of WNV incidence rates across several European countries. However, whether there is a year-round circulation or seasonal introduction has yet to be elucidated. Real-time polymerase chain reaction (PCR) identified WNV-positive Culex pipiens mosquitos in 6 out of 146 pools examined in winter 2022 that correspond to three out of the 24 study areas, located in two coastal regions units in Attica, Greece. Spatial dispersion of the six positive pools in the same region suggests a clustered circulation of WNV during the winter of 2022. This is the first study that documents the identification of WNV in Cx. pipiens populations, captured in adult traps during winter period. Our findings underscore the need to extend entomological surveillance programs to include the winter period, specifically in temperate climates and historically affected areas by WNV., (© 2024. The Author(s).)

Published

2024

49. Is Culex modestus a New Usutu virus vector?

Author

Soto A, Wauters L, and Delang L

Subjects

Animals, Female, Belgium, Saliva virology, Culex virology, Mosquito Vectors virology, Flavivirus genetics, Flavivirus physiology, Flavivirus Infections transmission, Flavivirus Infections virology

Abstract

Usutu virus is an emerging pathogen transmitted by mosquitoes. Culex modestus mosquitoes are widespread in Europe, but their role in disease transmission is poorly understood. Recent data from a single infectious mosquito suggested that Culex modestus could be an unrecognized vector for Usutu virus. In this study, our aim was to corroborate this finding using a larger sample size. We collected immature Culex modestus from a reedbed pond in Flemish Brabant, Belgium, and reared them in the laboratory until the third generation. Adult females were then experimentally infected with Usutu virus in a blood meal and incubated at 25 °C for 14 days. The presence of Usutu virus in the saliva, head and body of each female was determined by plaque assay and quantitative real-time reverse-transcription polymerase chain reaction (qRT-PCR). The transmission efficiency was 54% (n = 15/28), confirming that Belgian Culex modestus can experimentally transmit Usutu virus., (© 2024. The Author(s).)

Published

2024

50. Mosquito-borne Murray Valley encephalitis: Re-emergence in Western Australia.

Author

Srivastava S, Kumar S, Yadav L, Mehta R, Satapathy P, Faiyazuddin M, Sah R, and Apostolopoulos V

Subjects

Humans, Western Australia epidemiology, Animals, Mosquito Vectors virology, Culicidae virology, Communicable Diseases, Emerging epidemiology, Communicable Diseases, Emerging virology, Encephalitis Virus, Murray Valley, Encephalitis, Arbovirus epidemiology, Encephalitis, Arbovirus virology

Abstract

Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Published

2024