Your search keyword '"MOSQUITOES"' showing total 22,139 results

1. Western equine encephalitis: geographical patterns and range expansion of an emerging arbovirus disease in the Americas/Encephalite equine de l'Ouest: repartition et expansion geographiques d'une arbovirose emergente dans les Ameriques

Author

Kim, Jisoo, Macias, Jessica, Yoon, Bo Young, Charette, Margot, Areda, Betel, Ravikumar, Rajkrishna, de Fritas, Diego, Alfonso, Adriana, Anchen, Mariela, San Martin, Rosario, Lebrero, Cecilia Gonzalez, Giovacchini, Carlos, Fernandez, Gabriela, Maffey, Lucia, Marcos, Andrea, and Almiron, Maria

Subjects

Encephalitis -- Development and progression, Mosquitoes, Equine encephalomyelitis -- Development and progression, Disease transmission -- Development and progression, Government, Health, Pan American Health Organization, World Health Organization

Abstract

Background Three types of equine encephalitis virus circulate in the Americas: Eastern equine encephalitis virus (EEEV), Western equine encephalitis virus (WEEV), and Venezuelan equine encephalitis virus (VEEV). These 3 related, [...]

Published

2024

2. Relationship between malaria vector survival, infectivity, and insecticide-treated net use in western Kenya.

Author

Abel, Lucy, Kimachas, Emma, Omollo, Evans, Nalianya, Erick, Chepkwony, Tabitha, Kipkoech, Joseph, Amunga, Mark, Wekesa, Aggrey, Namae, Jane, Kahindi, Samuel, Mangeni, Judith, Lapp, Zena, Markwalter, Christine F., Taylor, Steve M., Obala, Andrew, and Prudhomme O'Meara, Wendy

Subjects

*ANOPHELES gambiae, *INSECTICIDE-treated mosquito nets, *ANOPHELES, *MALARIA prevention, *MOSQUITOES, *OOCYSTS

Abstract

Background: Significant effort and resources have been invested to control malaria transmission in sub-Saharan Africa, but it remains a major public health problem. For the parasite to be transmitted, the female Anopheles vector must survive 10–14 days following an infective bite to allow Plasmodium gametocytes to develop into infectious sporozoites. The goal of this study was to assess factors associated with wild-caught Anopheles survival and infection following host-seeking and indoor resting. Methods: The study was conducted between January 2020 to March 2022 in a longitudinal cohort of 75 households in 5 villages including a total of 755 household members in Bungoma County, Kenya. Monthly adult mosquito collection was conducted by attenuated aspiration in all enrolled households, and mosquitoes were reared for 7 days. The daily mortality rate was determined through day 7. All mosquitoes were morphologically identified. Female Anopheles were dissected, and species-level members of the Anopheles gambiae complex were resolved by molecular methods. The abdomens of all samples were processed for Plasmodium falciparum oocyst detection by PCR. Results: Within a 25-month period, the total numbers of non-Anopheles and Anopheles mosquitoes collected indoors were 12,843 and 712, respectively. Anopheles gambiae and An. funestus were the major vectors, though their distributions varied between different villages; 61.2% (n = 436/712) of the Anopheles mosquitoes survived up to day 7, with the lowest mortality rate recorded on day 5 of captivity. The survival rate also varied between the different Anopheles species. Six hundred eighty-three of 712 mosquito abdomens were tested for P. falciparum; 7.8% (53/683) tested positive for P. falciparum, with An. funestus having a higher (10%) prevalence than An. gambiae s.s. (6.0%, p = 0.095, Pearson Chi-square test). The proportion of household members sleeping under a bednet the night before mosquito collection varied across time and village. Anopheles funestus survival times were refractory to household ITN usage, and An. gambaie s.s. survival was reduced only under very high (100%) ITN usage. Conclusions: Despite ITN usage, mosquitoes still acquired blood meals and P. falciparum infections. Survival differed across species and was inversely correlated with high ITN usage in the household but not oocyst development. [ABSTRACT FROM AUTHOR]

Published

2024

3. Differential sensitivity and specificity of Aedes aegypti and Anopheles gambiae to adenine nucleotide phagostimulants—an all-or-none response?

Author

Lukenge, Matthew, Ignell, Rickard, and Hill, Sharon Rose

Subjects

*ADENINE nucleotides, *ADENOSINE triphosphate, *ANOPHELES gambiae, *SPECIES specificity, *SERUM albumin, *MOSQUITOES, *AEDES aegypti

Abstract

Background: The decision to imbibe a blood meal is predominantly dependent on the sensitivity and specificity of haematophagous arthropods to blood-derived adenine nucleotides, in particular adenosine triphosphate (ATP). Despite previous efforts to identify and characterise the specificity and sensitivity to ATP and other adenine nucleotides, as well as the role of other blood-derived phagostimulants across the Culicidae, comparisons across species remain difficult. Methods: The feeding response of the yellow fever mosquito Aedes aegypti and the African malaria vector Anopheles gambiae to adenine nucleotides in the presence of a carbonate buffer was assessed using a membrane feeding assay. The proportion of mosquitoes engorged and the volume imbibed by all mosquitoes was scored visually and spectrophotometrically. In addition, the proportion of prediuresing An. gambiae, as well as the volume engorged and prediuresed, was examined. Results: Aedes aegypti was more sensitive to adenine nucleotides than An. gambiae, but both species maintained specificity to these phagostimulants, demonstrating a dose-dependent bimodal feeding pattern, thereby expanding our understanding of the all-or-none blood-feeding hypothesis. Feeding on the bicarbonate buffer by An. gambiae—but not that of Ae. aegypti—demonstrated a species-specific variation in how blood phagostimulants are encoded. Adenine nucleotides, with and without bovine serum albumin, were observed to dose-dependently regulate the proportion of An. gambiae prediuresing and the volumes prediuresed but not volumes engorged. Conclusions: Taken together, the results of this study expand our understanding of how mosquitoes differentially assess and respond to blood meal constituents, and provide a basis for further physiological and molecular studies. [ABSTRACT FROM AUTHOR]

Published

2024

4. Variable effects of transient Wolbachia infections on alphaviruses in Aedes aegypti.

Author

Dodson, Brittany L., Pujhari, Sujit, Brustolin, Marco, Metz, Hillery C., and Rasgon, Jason L.

Subjects

*WOLBACHIA, *DENGUE viruses, *VIRUS diseases, *VECTOR control, *MOSQUITOES, *AEDES aegypti

Abstract

Wolbachia pipientis (= Wolbachia) has promise as a tool to suppress virus transmission by Aedes aegypti mosquitoes. However, Wolbachia can have variable effects on mosquito-borne viruses. This variation remains poorly characterized, yet the multimodal effects of Wolbachia on diverse pathogens could have important implications for public health. Here, we examine the effects of transient somatic infection with two strains of Wolbachia (wAlbB and wMel) on the alphaviruses Sindbis virus (SINV), O'nyong-nyong virus (ONNV), and Mayaro virus (MAYV) in Ae. aegypti. We found variable effects of Wolbachia including enhancement and suppression of viral infections, with some effects depending on Wolbachia strain. Both wAlbB- and wMel-infected mosquitoes showed enhancement of SINV infection rates one week post-infection, with wAlbB-infected mosquitoes also having higher viral titers than controls. Infection rates with ONNV were low across all treatments and no significant effects of Wolbachia were observed. The effects of Wolbachia on MAYV infections were strikingly strain-specific; wMel strongly blocked MAYV infections and suppressed viral titers, while wAlbB had more modest effects. The variable effects of Wolbachia on vector competence underscore the importance of further research into how this bacterium impacts the virome of wild mosquitoes including the emergent human pathogens they transmit. Author summary: In recent years, wild populations of Aedes aegypti mosquitoes in over a dozen countries have been deliberately infected with Wolbachia pipientis ("Wolbachia"); an intracellular bacterium that, in some circumstances, helps to curb the spread of mosquito-brone pathogens including dengue virus. But how does Wolbachia affect the ability of mosquitoes to become infected with and spread the many different viruses they encounter in nature? Here, we use transient somatic infections in Aedes aegypti to characterize the effects of Wolbachia on three different alphaviruses that cause illness in humans: Sindbis virus, O'nyong-nyong virus, and Mayaro virus. We find that transient Wolbachia infections have variable effects on these different pathogens, ranging from significant suppression of Mayaro virus to significant enhancement of Sindbis virus. Our research has important implications for the design of vector control strategies, and suggests further research is needed to understand how Wolbachia shapes the replication and transmission of diverse viruses in mosquitoes. [ABSTRACT FROM AUTHOR]

Published

2024

5. Nested patterns of commensals and endosymbionts in microbial communities of mosquito vectors.

Author

Aželytė, Justė, Maitre, Apolline, Abuin-Denis, Lianet, Wu-Chuang, Alejandra, Žiegytė, Rita, Mateos-Hernandez, Lourdes, Obregon, Dasiel, Palinauskas, Vaidas, and Cabezas-Cruz, Alejandro

Subjects

*CULEX quinquefasciatus, *CULEX pipiens, *MOSQUITO vectors, *WOLBACHIA, *DISEASE management

Abstract

Background: Mosquitoes serve as vectors for numerous pathogens, posing significant health risks to humans and animals. Understanding the complex interactions within mosquito microbiota is crucial for deciphering vector-pathogen dynamics and developing effective disease management strategies. Here, we investigated the nested patterns of Wolbachia endosymbionts and Escherichia-Shigella within the microbiota of laboratory-reared Culex pipiens f. molestus and Culex quinquefasciatus mosquitoes. We hypothesized that Wolbachia would exhibit a structured pattern reflective of its co-evolved relationship with both mosquito species, while Escherichia-Shigella would display a more dynamic pattern influenced by environmental factors. Results: Our analysis revealed different microbial compositions between the two mosquito species, although some microorganisms were common to both. Network analysis revealed distinct community structures and interaction patterns for these bacteria in the microbiota of each mosquito species. Escherichia-Shigella appeared prominently within major network modules in both mosquito species, particularly in module P4 of Cx. pipiens f. molestus, interacting with 93 nodes, and in module Q3 of Cx. quinquefasciatus, interacting with 161 nodes, sharing 55 nodes across both species. On the other hand, Wolbachia appeared in disparate modules: module P3 in Cx. pipiens f. molestus and a distinct module with a single additional taxon in Cx. quinquefasciatus, showing species-specific interactions and no shared taxa. Through computer simulations, we evaluated how the removal of Wolbachia or Escherichia-Shigella affects network robustness. In Cx. pipiens f. molestus, removal of Wolbachia led to a decrease in network connectivity, while Escherichia-Shigella removal had a minimal impact. Conversely, in Cx. quinquefasciatus, removal of Escherichia-Shigella resulted in decreased network stability, whereas Wolbachia removal had minimal effect. Conclusions: Contrary to our hypothesis, the findings indicate that Wolbachia displays a more dynamic pattern of associations within the microbiota of Culex pipiens f. molestus and Culex quinquefasciatus mosquitoes, than Escherichia-Shigella. The differential effects on network robustness upon Wolbachia or Escherichia-Shigella removal suggest that these bacteria play distinct roles in maintaining community stability within the microbiota of the two mosquito species. [ABSTRACT FROM AUTHOR]

Published

2024

6. A novel broad-spectrum antibacterial and anti-malarial Anopheles gambiae Cecropin promotes microbial clearance during pupation.

Author

Barreto, Cairé, Cardoso-Jaime, Victor, and Dimopoulos, George

Subjects

*ANOPHELES gambiae, *ANTIMICROBIAL peptides, *ANOPHELES, *PLASMODIUM, *PLASMODIUM falciparum, *MOSQUITOES

Abstract

Anophelinae mosquitoes are exposed to a variety of microbes including Plasmodium parasites that cause malaria. When infected, mosquitoes mount versatile immune responses, including the production of antimicrobial peptides. Cecropins are one of the most widely distributed families of antimicrobial peptides in insects and all previously studied Anopheles members are playing roles in adult mosquito immunity. We have identified and characterized a novel member of the Anopheles gambiae cecropin family, cecropin D (CecD), that is uniquely expressed and immune-responsive at late larval stages to promote microbial clearance through its broad-spectrum antibacterial activity during larval-pupal developmental transition. Interestingly, Cecropin D also exhibited highly potent activity against Plasmodium falciparum sporozoites, the malaria parasite stage that is transmitted from mosquitoes and infects humans and thereby holds promise as a malaria transmission-blocking agent. Finally, we have defined unequivocal cecropin-specific molecular signatures to systematically organize the diversity of the cecropin family in malaria vectors. Author summary: Anopheles mosquitoes that transmit the deadly malaria are exposed to a variety of microbes in their natural habitats. Mosquitoes use their innate immune system that also comprises antimicrobial peptides to fight infections with these microbes including the Plasmodium malaria parasite. Cecropins are one of the most widely distributed antimicrobial peptides in insects and all previously studied Anopheles cecropins are playing roles in adult mosquito immunity. We have identified and characterized a novel Anopheles gambiae cecropin, cecropin D (CecD), that is uniquely produced and immune-responsive at late larval stages to promote broad spectrum microbial clearance during larval-pupal developmental transition. Interestingly, Cecropin D also shows potent activity against Plasmodium falciparum sporozoites, the malaria parasite stage that is transmitted from mosquitoes to humans and could therefore be developed into a malaria control strategy. [ABSTRACT FROM AUTHOR]

Published

2024

7. A study on the effectiveness of (+)-usnic acid as oral toxic sugar bait against adult male and female Anopheles gambiae.

Author

Muhoro, Arthur Macharia, Ochomo, Eric Odhiambo, Kinyua, Isaac Njangiru, Kosgei, Jackline Jeruto, Rasaki, Laide Abbas, and Farkas, Edit

Subjects

*ORAL drug administration, *NON-target organisms, *ANOPHELES gambiae, *METABOLITES, *MALARIA prevention

Abstract

Background: Despite the application of various tools for the control of vectors of Plasmodium falciparum, malaria remains the major killer disease in sub-Saharan Africa accounting for up to 90% of deaths due to the disease. Due to limitations of the useage of chemical insecticides such as resistance, negative impact on the environment and to nontarget organisms, the World Health Organization (WHO) requires that affected countries find alternative vector control tools. This study evaluated the effectiveness of (+)-usnic acid (UA) as an insecticide through oral administration to male and female Anopheles gambiae as an alternative or additional active ingredient to be used in toxic sugar bait. Methods: (+)-usnic acid was diluted using acetone at 5, 10, and 15 mg/ml concentrations in three replicates. A 5 ml mixture of 2% food dye and 10% sugar using chlorine-free water mixed with the dilutions of the (+)-usnic acid and negative control was made containing 2% food dye and 10% sugar solution. The preparations were soaked on a ball of cotton wool and placed over the net of a cup. 5 male and 5 non-blood-fed female newly hatched starved An. gambiae Kisumu strain were introduced together into a cup and monitored for knockdown and mortalities after 4, 24 48, and 72 h. The data were analysed using a multiple linear regression model using the lm function, a base R function and a posthoc test were conducted on the significant main effects and interaction terms using the emmeans function from the emmeans R package. All analyses were performed in RStudio using base R (version 4.3.3). Results: There was high mortality of both male and female An. gambiae after ingestion of the toxic sugar bait. 15 mg/ml usnic acid caused the highest mortality (50%) within the first 4 h compared to 5 and 10 mg/ml (+)-UA. There was a decline in the mortality rate with increased exposure time from 24 to 72 h, however, there was a significant difference in mortality at 5, 10 and 15 mg/ml. Acute toxicity was associated with ingestion of 15 mg/ml after 24 h. 72 h post-mortality was lower in all concentrations than in the control. High mortality was observed among females over the first 4 h (60%) compared to males (40%) due to higher feeding rate of the toxic agent. The proportion of dead males and females was equal after 24 h while after 48 h, the proportion of dead males was high.There was a significantly lower mortality rate after 72 h for both males and females (0 to 13.3%). Compared to all the treatments, high mortality of males was observed. Conclusions: The results of this study indicate that (+)-UA when administered as oral sugar bait to An. gambiae has insecticidal properties and is a suitable ingredient to be used as a toxic agent in the novel attractive toxic sugar bait for the control of malaria vectors. (+)-UA may be an alternative active ingredient as toxic bait in the effort to reduce and eliminate the transmission of Plasmodium falciparum in Africa. [ABSTRACT FROM AUTHOR]

Published

2024

8. A Mathematical Analysis of the Impact of Immature Mosquitoes on the Transmission Dynamics of Malaria.

Author

Sualey, Nantogmah Abdulai, Akuka, Philip N. A., Seidu, Baba, Asamoah, Joshua Kiddy K., and Wu, Yunfeng

Subjects

MOSQUITOES, MALARIA, INFECTIOUS disease transmission, EPIDEMIOLOGY, DISEASE vectors, MALARIA prevention

Abstract

This study delves into the often‐overlooked impact of immature mosquitoes on the dynamics of malaria transmission. By employing a mathematical model, we explore how these aquatic stages of the vector shape the spread of the disease. Our analytical findings are corroborated through numerical simulations conducted using the Runge–Kutta fourth‐order method in MATLAB. Our research highlights a critical factor in malaria epidemiology: the basic reproduction number R0. We demonstrate that when R0 is below unity R0<1, the disease‐free equilibrium exhibits local asymptotic stability. Conversely, when R0 surpasses unity R0>1, the disease‐free equilibrium becomes unstable, potentially resulting in sustained malaria transmission. Furthermore, our analysis covers equilibrium points, stability assessments, bifurcation phenomena, and sensitivity analyses. These insights shed light on essential aspects of malaria control strategies, offering valuable guidance for effective intervention measures. [ABSTRACT FROM AUTHOR]

Published

2024

9. Human-to-Anopheles dirus mosquito transmission of the anthropozoonotic malaria parasite, Plasmodium knowlesi.

Author

Kumpitak, Chalermpon, Duangmanee, Apisak, Thongyod, Waraporn, Rachaphaew, Nattawan, Suansomjit, Chayanut, Manopwisedjaroen, Khajohnpong, Aung, Pyae Linn, Imad, Hisham Ahmed, Cui, Liwang, Sattabongkot, Jetsumon, Nguitragool, Wang, and Bantuchai, Sirasate

Subjects

*SALIVARY glands, *ANOPHELES, *INFECTIOUS disease transmission, *MOSQUITOES, *SPOROZOITES, *PLASMODIUM

Abstract

Background: Plasmodium knowlesi, identified as the fifth human malaria parasite, has rapidly spread across various Southeast Asian countries, yet uncertainties persist regarding its human-mosquito-human transmission. Therefore, this study aims to explore the transmission potential of P. knowlesi from human blood to mosquitoes. Methods: A direct membrane-feeding assay was conducted by infecting laboratory-reared female Anopheles dirus mosquitoes with P. knowlesi-infected human blood from a single patient presenting with febrile malaria. Mosquitoes were dissected 7 days post-infection under a stereomicroscope to detect oocysts in the midgut, stained with mercurochrome. Salivary glands were examined 14 days post-infection for the presence of sporozoites. Malaria diagnosis employed microscopy by expert microscopists and nested PCR assays. Results: Upon dissecting 745 out of 1439 blood-fed An. dirus mosquitoes on day 7 post-infection, two oocysts were identified in the midguts of two mosquitoes (0.27%). An additional 694 mosquitoes were dissected for salivary glands on day 14 post-infection, with three mosquitoes (0.43%) exhibiting sporozoites. Further confirmation by nested-PCR assay verified these sporozoites as belonging to the P. knowlesi species. Conclusions: The findings underscore the potential transmission of P. knowlesi from human blood to mosquitoes. The significance of these findings necessitates further investigation, such as repeating similar experiments among natural vectors, to gain deeper insights into the transmission dynamics of P. knowlesi in Southeast Asia. [ABSTRACT FROM AUTHOR]

Published

2024

10. Improved species assignments across the entire Anopheles genus using targeted sequencing.

Author

Boddé, Marilou, Makunin, Alex, Teltscher, Fiona, Akorli, Jewelna, Andoh, Nana Efua, Bei, Amy, Chaumeau, Victor, Desamours, Ife, Ekpo, Uwem F., Govella, Nicodem J., Kayondo, Jonathan, Kobylinski, Kevin, Malick Ngom, Elhadji, Amadou Niang, El Hadji, Okumu, Fredros, Omitola, Olaitan O., Ponlawat, Alongkot, Rakotomanga, Malala Nirina, Rasolonjatovoniaina, Mialy Tatamo, and Ayala, Diego

Subjects

MALARIA prevention, ANOPHELES, MOSQUITOES, MALARIA, LOCUS (Genetics)

Abstract

Accurate species identification of the mosquitoes in the genus Anopheles is of crucial importance to implement malaria control measures and monitor their effectiveness. We use a previously developed amplicon panel (ANOSPP) that retrieves sequence data from multiple short nuclear loci for any species in the genus. Species assignment is based on comparison of samples to a reference index using k-mer distance. Here, we provide a protocol to generate version controlled updates of the reference index and present its latest release, NNv2, which contains 91 species, compared to 56 species represented in its predecessor NNv1. With the updated reference index, we are able to assign samples to species level that previously could not be assigned. We discuss what happens if a species is not represented in the reference index and how this can be addressed in a future update. To demonstrate the increased power of NNv2, we showcase the assignments of 1789 wild-caught mosquitoes from Madagascar and demonstrate that we can detect within species population structure from the amplicon sequencing data. [ABSTRACT FROM AUTHOR]

Published

2024

11. Measurement of the Direct Impact of Hematophagous Flies on Feeder Cattle: An Unexpectedly High Potential Economic Impact.

Author

Boonsaen, Phoompong, Nevot, Adèle, Onju, Sathaporn, Fossaert, Clément, Chalermwong, Piangjai, Thaisungnoen, Kornkanok, Lucas, Antoine, Thévenon, Sophie, Masmeatathip, Roungthip, Jittapalapong, Sathaporn, and Desquesnes, Marc

Subjects

*BEHAVIOR modification, *PRODUCTION losses, *FLY control, *DIPTERA, *WEIGHT gain

Abstract

Simple Summary: Biting hematophagous dipterans are responsible for painful bites and blood spoliation; they induce behavioral modifications, anemia, and significant production losses in cattle. A feedlot of 100 feeder cattle would register a total loss of USD 16,000 within 5 months, which appears to be an unexpectedly huge loss caused by dipterans. Investing part of this money in fly control would probably be beneficial. In addition to blood pathogen transmission, insects of the order Diptera affect livestock through visual and contact harassment; blood-feeders are responsible for painful bites and blood despoliation, generating behavioral modifications, anemia, and production losses. Knowledge of their economic impact is a basis for cost-effective control. Here, we measured the global impact of diptera insects by comparing two batches of six feeder cattle, one in the open air and the other protected by a mosquito net. The analytical data were insect density in the open air and, for feeder cattle, tail flick counts, hematocrit values (Ht), feed intake, feed conversion ratio (FCR), and live body weight gain (LBWG). Over a period of five months, the results showed significant losses in the LBWG of cattle exposed to insects, estimated at 8.0 ± 1.5 kg/month [2.7; 13.3], with a total loss reaching 40.0 ± 5.5 kg/head. Main diurnal insects were Stomoxys spp. and Musca crassirostris. There was a strong correlation between fly density and diurnal tail flicks. Night trapping and tail flicks showed a potentially important role of mosquitoes to be further explored. The Ht levels of exposed animals were 3–4% lower than those of controls. FCRs indicated that exposed animals needed 33% more dry matter intake/kg of LBWG. An economic assessment showed that dipterans were responsible for a 10–11% loss in LBWG during the main growing period of feeder cattle (10–15 months). A feedlot of 100 calves would register a total loss of USD 16,000 within 5 months, which appears to be an unexpectedly huge loss caused by dipterans. Investing part of this money into fly control would probably be beneficial. [ABSTRACT FROM AUTHOR]

Published

2024

12. Selection Pressure Profile Suggests Species Criteria among Tick-Borne Orthoflaviviruses.

Author

Deviatkin, Andrei A., Aleshina, Yulia A., Karganova, Galina G., and Lukashev, Alexander N.

Subjects

*TICK-borne encephalitis viruses, *TICK-borne encephalitis, *IXODES scapularis, *HEMORRHAGIC fever, *POWASSAN (Disease), *MOSQUITOES, *AEDES aegypti

Abstract

Orthoflaviviruses are arthropod-borne viruses that are transmitted by mosquitoes or ticks and cause a range of significant human diseases. Among the most important tick-borne orthoflaviviruses (TBFVs) is tick-borne encephalitis virus (TBEV), which is endemic in Eurasia, and Powassan virus, which is endemic in Asia and North America. There is a significant controversy regarding species assignment in the tick-borne encephalitis virus complex due to the complex phylogenetic, serological, ecological, and pathogenetic properties of viruses. Comparing the rate of non-synonymous to synonymous substitutions (dN/dS) over the course of tick-borne orthoflavivirus diversification suggests that there is a very strong stabilizing selection (Nei-Gojobori dN/dS < 0.1) among tick-borne orthoflaviviruses that differ by less than 13.5% amino acid/21.4% nucleotide sequences, and discretely more rapid accumulation of non-synonymous substitutions (dN/dS > 0.13) among more divergent viruses that belong to distinct species. This pattern was similarly observed in genome regions encoding structural (E) and non-structural (NS3) proteins. Below this distance threshold, viruses appear fit and strongly tied to their ecological niche, whereas above the threshold, a greater degree of adaptation appears necessary. This species criterion suggests that all subtypes of TBEV, all related ovine/caprine encephalomyelitis viruses, and Omsk hemorrhagic fever virus (OHFV) together correspond to a single species. Within this species, viruses make up 11 subtypes that are reliably segregated by a 10% nucleotide distance cut-off suggested earlier for TBEV. The same 10% subtype cut-off suggests that Powassan virus includes two subtypes, Powassan and Deer Tick virus. [ABSTRACT FROM AUTHOR]

Published

2024

13. Feeding habits and malaria parasite infection of Anopheles mosquitoes in selected agroecological areas of Northwestern Ethiopia.

Author

Belay, Aklilu K., Asale, Abebe, Sole, Catherine L., Yusuf, Abdullahi A., Torto, Baldwyn, Mutero, Clifford M., and Tchouassi, David P.

Subjects

*ANOPHELES arabiensis, *ANOPHELES gambiae, *INSECT traps, *MALARIA prevention, *POLYMERASE chain reaction, *MOSQUITO control, *AEDES aegypti, *MOSQUITOES

Abstract

Background: Surveillance of the host–anopheline mosquitoes' interaction is important for assessing malaria transmission risk and guiding vector control. We assume that changes in malaria vector species' feeding habits, as well as the surrounding environment, have a substantial impact on varied malaria transmission. In this study, we determined the vertebrate host feeding patterns of anopheline mosquitoes to characterize entomologic risk factors for malaria in Jabi Tehnan, Northwestern Ethiopia. Methods: Blood-fed anophelines surveyed during malaria surveillance in Jabi Tehnan district of northwestern Ethiopia were utilized in this study. They were collected using Centers for Disease Control and Prevention (CDC) light traps deployed in selected households per village, placed indoors and outdoors, spanning three agroecological settings (dry mountain, plateau, and semiarid highlands) between June 2020 and May 2021. The engorged mosquitoes were analyzed for host blood meal sources and Plasmodium infection via polymerase chain reaction (PCR) and/or sequencing. Infection rates and bovine and human blood indices were calculated and compared for abundant species; between indoors and outdoors and between agroecology using a chi-squared test for equality of proportion in R package at a significant level of p ≤ 0.05. Results: A total of 246 mosquitoes were successfully typed (indoor, 121; outdoor, 125), with greater relative abundance indoors in mountain and plateau highlands, and outdoors in semiarid areas. Despite ecological differences in blood-fed capture rates, cattle served as the most utilized blood meal source by 11 anopheline species with an overall bovine blood index (BBI) of 74.4%. This trend was dictated by Anopheles gambiae s.l. (198/246; BBI = 73.7%), which exhibited the most plastic feeding habits that included humans (human blood index = 15.7%) and other livestock and rodents. A total of five anopheline species (An. gambiae s.l., An. funestus s.l., An. coustani s.l., An. pretoriensis, and An. pharoensis) fed on humans, of which the first three were found infected with Plasmodium parasites. Most of the infected specimens were An. arabiensis (5.6%, 11/198) and had recently fed mainly on cattle (72.7%, 8/11); one each of infected An. funestus s.l. and An. coustani s.l. had fed on humans and cattle, respectively. Conclusions: The results demonstrate communal feeding on cattle by anophelines including primary and secondary malaria vectors. This study also indicates the importance of cattle-targeted interventions for sustainable control of malaria vectors in the study areas. [ABSTRACT FROM AUTHOR]

Published

2024

14. An easier life to come for mosquito researchers: field-testing across Italy supports VECTRACK system for automatic counting, identification and absolute density estimation of Aedes albopictus and Culex pipiens adults.

Author

Micocci, Martina, Manica, Mattia, Bernardini, Ilaria, Soresinetti, Laura, Varone, Marianna, Di Lillo, Paola, Caputo, Beniamino, Poletti, Piero, Severini, Francesco, Montarsi, Fabrizio, Epis, Sara, Salvemini, Marco, and della Torre, Alessandra

Subjects

*AEDES albopictus, *CULEX pipiens, *AUTOMATIC identification, *MOSQUITOES, *OPTICAL sensors

Abstract

Background: Disease-vector mosquito monitoring is an essential prerequisite to optimize control interventions and evidence-based risk predictions. However, conventional entomological monitoring methods are labor- and time-consuming and do not allow high temporal/spatial resolution. In 2022, a novel system coupling an optical sensor with machine learning technologies (VECTRACK) proved effective in counting and identifying Aedes albopictus and Culex pipiens adult females and males. Here, we carried out the first extensive field evaluation of the VECTRACK system to assess: (i) whether the catching capacity of a commercial BG-Mosquitaire trap (BGM) for adult mosquito equipped with VECTRACK (BGM + VECT) was affected by the sensor; (ii) the accuracy of the VECTRACK algorithm in correctly classifying the target mosquito species genus and sex; (iii) Ae. albopictus capture rate of BGM with or without VECTRACK. Methods: The same experimental design was implemented in four areas in northern (Bergamo and Padua districts), central (Rome) and southern (Procida Island, Naples) Italy. In each area, three types of traps—one BGM, one BGM + VECT and the combination of four sticky traps (STs)—were rotated each 48 h in three different sites. Each sampling scheme was replicated three times/area. Collected mosquitoes were counted and identified by both the VECTRACK algorithm and operator-mediated morphological examination. The performance of the VECTRACK system was assessed by generalized linear mixed and linear regression models. Aedes albopictus capture rates of BGMs were calculated based on the known capture rate of ST. Results: A total of 3829 mosquitoes (90.2% Ae. albopictus) were captured in 18 collection-days/trap/site. BGM and BGM + VECT showed a similar performance in collecting target mosquitoes. Results show high correlation between visual and automatic identification methods (Spearman Ae. albopictus: females = 0.97; males = 0.89; P < 0.0001) and low count errors. Moreover, the results allowed quantifying the heterogeneous effectiveness associated with different trap types in collecting Ae. albopictus and predicting estimates of its absolute density. Conclusions: Obtained results strongly support the VECTRACK system as a powerful tool for mosquito monitoring and research, and its applicability over a range of ecological conditions, accounting for its high potential for continuous monitoring with minimal human effort. [ABSTRACT FROM AUTHOR]

Published

2024

15. 2'-O-methyltransferase-deficient yellow fever virus: Restricted replication in the midgut and secondary tissues of Aedes aegypti mosquitoes severely limits dissemination.

Author

vom Hemdt, Anja, Thienel, Alexandra L., Ciupka, Katrin, Wieseler, Janett, Proksch, Hannah M., Schlee, Martin, and Kümmerer, Beate M.

Subjects

*YELLOW fever, *VIRAL genomes, *GENETIC translation, *AEDES, *ARBOVIRUSES, *AEDES aegypti, *MOSQUITOES

Abstract

The RNA genome of orthoflaviviruses encodes a methyltransferase within the non-structural protein NS5, which is involved in 2'-O-methylation of the 5'-terminal nucleotide of the viral genome resulting in a cap1 structure. While a 2'-O-unmethylated cap0 structure is recognized in vertebrates by the RNA sensor RIG-I, the cap1 structure allows orthoflaviviruses to evade the vertebrate innate immune system. Here, we analyzed whether the cap0 structure is also recognized in mosquitoes. Replication analyses of 2'-O-methyltransferase deficient yellow fever virus mutants (YFV NS5-E218A) of the vaccine 17D and the wild-type Asibi strain in mosquito cells revealed a distinct downregulation of the cap0 viruses. Interestingly, the level of inhibition differed for various mosquito cells. The most striking difference was found in Aedes albopictus-derived C6/36 cells with YFV-17D cap0 replication being completely blocked. Replication of YFV-Asibi cap0 was also suppressed in mosquito cells but to a lower extent. Analyses using chimeras between YFV-17D and YFV-Asibi suggest that a synergistic effect of several mutations across the viral genome accompanied by a faster initial growth rate of YFV-Asibi cap1 correlates with the lower level of YFV-Asibi cap0 attenuation. Viral growth analyses in Dicer-2 knockout cells demonstrated that Dicer-2 is entirely dispensable for attenuating the YFV cap0 viruses. Translation of a replication-incompetent cap0 reporter YFV-17D genome was reduced in mosquito cells, indicating a cap0 sensing translation regulation mechanism. Further, oral infection of Aedes aegypti mosquitoes resulted in lower infection rates for YFV-Asibi cap0. The latter is related to lower viral loads found in the midguts, which largely diminished dissemination to secondary tissues. After intrathoracic infection, YFV-Asibi cap0 replicated slower and to decreased amounts in secondary tissues compared to YFV-Asibi cap1. These results suggest the existence of an ubiquitously expressed innate antiviral protein recognizing 5'-terminal RNA cap-modifications in mosquitoes, both in the midgut as well as in secondary tissues. Author summary: Arthropod-borne viruses infect both mosquito and vertebrate hosts. One factor influencing the level of viral replication in the host is the ability of the virus to evade or counteract the host's immune system. In vertebrates, it was shown that orthoflaviviruses circumvent the innate immune system by capping their viral genome with a cap1 structure characterized by 2'-O-methylation of the 5'-terminal nucleotide. In contrast, viral genomes lacking 2'-O-methylation (cap0) are recognized as foreign and activate the vertebrate innate immune system. Here, we used yellow fever virus (YFV) strain 17D and Asibi mutants lacking 2'-O-methylation, as well as a cap0 reporter YFV genome, to analyze cap0 recognition in mosquito cells and living mosquitoes. The replication of the YFV cap0 mutants was profoundly impaired in different mosquito cells and cap0 YFV genomes showed reduced translation levels. Based on viral infection experiments in Aedes aegypti mosquitoes, we further demonstrate that these vector mosquitoes recognize the cap0 structure and that a potential recognizing effector protein is localized in the midgut as well as in secondary tissues. Our findings provide the basis for future studies investigating the recognition of foreign RNAs in mosquitoes and should contribute to establish methods to prevent transmission of arboviruses. [ABSTRACT FROM AUTHOR]

Published

2024

16. Oropouche Fever, Cuba, May 2024.

Author

Benitez, Ana Julia, Alvarez, Mayling, Perez, Lissette, Gravier, Rosario, Serrano, Silvia, Hernandez, Denelsys Milagro, Perez, Melissa Maria, Gutierrez-Bugallo, Gladys, Martinez, Yanet, Companioni, Ariamys, Peña, Carilda, de Armas, Jose Raul, Couto, Dayana, Betancourt, Iliovanys, Sanchez, Madelaine Rivera, Resik, Sonia, Kouri, Vivian, and Guzman, Maria G.

Subjects

*CERATOPOGONIDAE, *CULEX quinquefasciatus, *MOSQUITOES, *FEVER, *RNA

Abstract

Phylogenetic analyses showed that the virus responsible for a May 2024 Oropouche fever outbreak in Cuba was closely related to viruses from Brazil in 2023. Pools of Ceratopogonidae spp. biting midges and Culex quinquefasciatus mosquitoes were positive for Oropouche viral RNA. No cases were severe. Virus extension to new areas may increase case numbers and severity [ABSTRACT FROM AUTHOR]

Published

2024

17. The complete mitochondrial genome of Paraclius curvispinus Yang et Saigusa, 2001 (Diptera: Dolichopodidae).

Author

Li, Sihan, Ding, Shuangmei, Lin, Chen, and Yang, Ding

Subjects

MITOCHONDRIAL DNA, SEQUENCE analysis, MOSQUITOES, PHYLOGENY, DIPTERA

Abstract

This study presented the first sequencing and analysis of the mitochondrial genome of Paraclius curvispinus Yang and Saigusa, 2001, a predator fly belonging to the family Dolichopodidae (long-legged fly). The complete mitochondrial genome of P. curvispinus was 16,882 bp long (GenBank accession number: PP498802), which contained 13 protein-coding genes, 22 tRNAs, 2 rRNAs, and a control region. The nucleotide composition of mitochondrial genome of P. curvispinus was 38.48% of A, 36.00% of T, 10.67% of G, and 14.85% of C. Maximum-likelihood (ML) analysis revealed the phylogenetic relationships within the subfamily Dolichopodinae, suggesting the following grouping: ((Dolichopus + Lichtwardtia)+((Hercostomus + Poecilobothrus)+ Gymnopternus))+ Paraclius. This study provides a basis for discussing the evolution of mosquito larval predation habits of Dolichopodinae. [ABSTRACT FROM AUTHOR]

Published

2024

18. High-Sensitivity RT-LAMP for Molecular Detection of O'nyong-nyong (Alphavirus onyong).

Author

Faísca-Silva, David, Seixas, Gonçalo, Nunes, Mónica, and Parreira, Ricardo

Subjects

RESOURCE-limited settings, MOSQUITO vectors, ANOPHELES, ALPHAVIRUSES, MOSQUITOES, ARBOVIRUSES, AEDES aegypti

Abstract

Mosquitoes serve as vectors for many arthropod-borne viruses (arboviruses) that are responsible for millions of human infections and thousands of deaths each year. Among these arboviruses, O'nyong-nyong virus (ONNV) is an African alphavirus mainly transmitted by Anopheles mosquitoes. ONNV can be detected through serological or molecular tests, the first showing cross-reactivity to co-circulating alphaviruses and requiring technically demanding confirmation, while the latter, usually based on real-time PCR, are costly and demand specific equipment. Isothermal amplification approaches, such as Loop-Mediated Isothermal Amplification (LAMP), should therefore provide a cost-effective, sensitive, and specific alternative for virus detection, suitable for the resource-limited regions where ONNV circulates up to the present time. Here, we describe the development and optimization of a rapid and highly sensitive (10 pfu/reaction) RT-LAMP assay for ONNV detection. Additionally, we demonstrate that it is possible to bypass the RNA extraction step, reducing sample handling time and costs. The final RT-LAMPONNV is a promising field detection tool for ONNV, enabling a better understanding of its impact and serving as a point-of-care diagnostic method. [ABSTRACT FROM AUTHOR]

Published

2024

19. Acute Kidney Injury and Post-Artesunate Delayed Haemolysis in the Course of Plasmodium falciparum Malaria.

Author

Kubanek, Alicja, Sulima, Małgorzata, Szydłowska, Aleksandra, Sikorska, Katarzyna, and Renke, Marcin

Subjects

ACUTE kidney failure, MALARIA, PLASMODIUM falciparum, WORLD health, PUBLIC health, MOSQUITOES

Abstract

Malaria is a major international public health problem. The risk of acquiring malaria varies depending on the intensity of transmission and adherence to mosquito precautions and prophylaxis recommendations. Severe malaria can cause significant multiorgan dysfunction, including acute kidney injury (AKI). Intravenous artesunate is the treatment of choice for severe malaria in non-endemic areas. One of the possible events connected with the lifesaving effects of artemisins is post-artesunate haemolysis (PADH), which may be potentially dangerous and under-recognised. We present a case of a seafarer with severe Plasmodium falciparum malaria complicated with AKI and PADH, with a good response to steroid treatment. This case highlights the need for malaria prophylaxis in business travellers, e.g., seafarers to malara-endemic regions, and close supervision of patients with malaria even after the completion of antimalarial treatment due to the possibility of late complications. [ABSTRACT FROM AUTHOR]

Published

2024

20. Continuous and Dynamic Circulation of West Nile Virus in Mosquito Populations in Bucharest Area, Romania, 2017–2023.

Author

Dinu, Sorin, Stancu, Ioana Georgeta, Cotar, Ani Ioana, Ceianu, Cornelia Svetlana, Pintilie, Georgiana Victorița, Karpathakis, Ioannis, Fălcuță, Elena, Csutak, Ortansa, and Prioteasa, Florian Liviu

Subjects

CULEX pipiens, METROPOLITAN areas, WEST Nile virus, CLIMATE change, SPECIES, LINEAGE, MOSQUITOES, AEDES albopictus

Abstract

West Nile virus (WNV) is a mosquito-borne pathogen with a worldwide distribution. Climate change and human activities have driven the expansion of WNV into new territories in Europe during the last two decades. Romania is endemic for WNV circulation since at least 1996 when the presence of lineage 1 was documented during an unprecedented outbreak. Lineage 2 was first identified in this country during a second significant human outbreak in 2010. Its continuous circulation is marked by clade replacement, and even co-circulation of different strains of the same clade was observed until 2016. The present study aims to fill the information gap regarding the WNV strains that were circulating in Romania between 2017 and 2023, providing chiefly viral sequences obtained from mosquito samples collected in the Bucharest metropolitan area, complemented by human and bird viral sequences. WNV was detected mainly in Culex pipiens mosquitoes, the vectors of this virus in the region, but also in the invasive Aedes albopictus mosquito species. Lineage 2 WNV was identified in mosquito samples collected between 2017 and 2023, as well as in human sera from patients in southern and central Romania during the outbreaks of 2017 and 2018. Both 2a and 2b sub-lineages were identified, with evidence of multiple clusters and sub-clusters within sub-lineage 2a, highlighting the complex and dynamic circulation of WNV in Romania, as a consequence of distinct introduction events from neighboring countries followed by in situ evolution. [ABSTRACT FROM AUTHOR]

Published

2024

21. Vector Competence of Aedes aegypti from São Tomé and Príncipe for West Nile Virus Transmission.

Author

Marmé, Rafael, Tomaz, Filipe, Sousa, Carla A., Pinto, João, Lanzaro, Gregory C., Parreira, Ricardo, and Seixas, Gonçalo

Subjects

WEST Nile virus, CULEX quinquefasciatus, VIRAL transmission, MOSQUITOES, VECTOR control, AEDES aegypti

Abstract

The global distribution of Aedes aegypti mosquitoes, particularly in tropical regions, poses a significant public health risk due to their apparent ability to transmit arboviruses such as West Nile virus (WNV). This study aimed to evaluate the vector competence of Ae. aegypti from São Tomé and Príncipe (STP) for the transmission of the WNV PT6.39 strain, considering its potential role as a bridge vector in a region where Culex quinquefasciatus would be the main vector. Aedes aegypti mosquitoes were collected, reared, and experimentally infected with WNV, with viral dissemination and transmission potential assessed 7, 14, and 21 days post infection (dpi). The results showed an increasing trend in infection rates, from 5% at 7 dpi to 35% at 21 dpi, with corresponding dissemination rates of 0%, 100%, and 43%. The transmission rates also increased from 0% at 7 dpi to 67% at 21 dpi, with a maximum transmission efficiency of 10% observed at the final time point. Although Ae. aegypti from STP demonstrated the potential to transmit WNV, the overall transmission efficiency remained relatively low. These findings provide necessary insights into the vector competence of Ae. aegypti in this region, highlighting the importance of continued monitoring and targeted vector control measures to mitigate the risk of potential WNV outbreaks. [ABSTRACT FROM AUTHOR]

Published

2024

22. Wolbachia Natural Infection of Mosquitoes in French Guiana: Prevalence, Distribution, and Genotyping.

Author

Clervil, Emmanuelle, Guidez, Amandine, Talaga, Stanislas, Carinci, Romuald, Gaborit, Pascal, Lavergne, Anne, Tirera, Sourakhata, and Duchemin, Jean-Bernard

Subjects

AEDES aegypti, SAND flies, VECTOR control, MOSQUITOES, VIRAL replication, MOSQUITO control

Abstract

Wolbachia are the most spread bacterial endosymbionts in the world. These bacteria can manipulate host reproduction or block virus transmission in mosquitoes. For this reason, Wolbachia-based strategies for vector control are seriously considered or have already been applied in several countries around the world. In South America, Wolbachia have been studied in human pathogen vectors such as sand flies and mosquitoes. In French Guiana, the diversity and distribution of Wolbachia are not well known in mosquitoes. In this study, we screened for Wolbachia natural infection in mosquitoes in French Guiana by using 16S rRNA, Wolbachia surface protein (WSP), and multi-locus sequence typing (MLST) molecular assays. A total of 29 out of 44 (65.9%) mosquito species were positive for natural Wolbachia infection according to the PCR results, and two Wolbachia strains co-infected three specimens of Mansonia titillans. Then, we analyzed the phylogenetic relationships among the Wolbachia detected. All of the tested specimens of Aedes aegypti, the major dengue vector of French Guiana, were negative. These results regarding Wolbachia strain, distribution, and prevalence in mosquitoes from French Guiana highlight Wolbachia–mosquito associations and pave the way for a future Wolbachia-based strategy for vector control in this Amazonian territory. [ABSTRACT FROM AUTHOR]

Published

2024

23. Plasticity of blood feeding behavior of Anopheles mosquitoes in Ethiopia: a systematic review.

Author

Ashine, Temesgen, Kochora, Abena, Shibru, Hailu, Bekele, Alemayehu, Assefa, Muluken, Gidisa, Bedasa, Negash, Nigatu, Weetman, David, Ayele, Tadesse Awoke, Gadisa, Endalamaw, and Massebo, Fekadu

Subjects

*DOMESTIC animals, *QUALITY control, *ANOPHELES, *SEARCH engines, *MOSQUITOES

Abstract

Background: The efficacy of vector control tools depends on the behavior of the vector species. Many studies have sought to determine the feeding behavior of Anopheles mosquitoes in different settings of Ethiopia. We have performed a systematic review aimed to generate pooled evidence on the overall and species-specific blood meal sources of Anopheles mosquitoes in Ethiopia. Methods: A search for relevant articles was performed in two electronic databases (PubMed and Science Direct) and three search engines (Google Scholar, Research Gate and Google) between 11 March and 2 April 2024. Following the initial identification of articles, we used EndNote X8 software and removed duplicate articles and screened the remaining articles by careful reading of their titles and abstracts. The full text of articles that passed this screening phase was retrieved, read and evaluated against predetermined selection criteria. The final decision for inclusion in the systematic review was made after a methodological quality check using the JBI critical appraisal checklist. All relevant data were extracted from tables, figures and texts of the included articles using a premade template in Excel, and the data were analyzed using Stata version 14 software. Results: Of the 2431 studies identified, 27 met the inclusion criteria; all were published between 1997 and 2024. At 215 data points (frequency of tests of each Anopheles species by location and method of mosquito collections), 18,771 Anopheles mosquitoes belonging to 23 species or species complexes were tested for blood meal sources. The commonest sources of blood meals for Anopheles mosquitoes were bovine (36.0%, n = 6758) and human (29.4%, n = 5520). Among the tested anophelines, Anopheles (An.) arabiensis accounted for 67.9% (n = 12,741), followed by An. pharoensis, An. demeilloni and An. stephensi at 10.0%, 5.6% and 4.4%, respectively. Overall, there was no difference in the mean proportion of An. arabiensis detected with domestic animal blood (33.4%, 95% confidence interval [CI] 32.4–34.4%) and those detected with human blood (31.8%, 95% CI 30.9–32.8%). However, a greater proportion of the outdoor collected An. arabiensis were found to feed on bovines (47.9%, 95% CI 35.3–60.6) compared to humans (12.9%, 95% CI 0.8–24.9, P < 0.01). The foraging ratio (FR), which accounts for host availability, was greater for bovines (FR = 0.7) than for humans (FR = 0.2) for An. arabiensis, indicating preferential feeding on bovine hosts. This host preference was supported by the host preference index (human:bovine = 0.4). Anopheles pharoensis was detected with a slightly higher human blood index (53.5%, n = 1005) compared to bovine blood index (45.2%, n = 849). In contrast, An. demeilloni, An. coustani and An. marshalli were detected with a higher bovine blood index. Recently invaded urban malaria vector, An. stephensi was found with a higher ovine blood index. Conclusions: Bovine and human hosts are common sources of a blood meal for Anopheles mosquitoes. In terms of host availability, An. arabiensis showed preferential feeding on bovines/cattle. Targeting domestic animals, bovines and ovines with endectocides could supplement current vector control interventions. Study registration: The protocol of this study was registered on the International Prospective Register of Systematic Reviews, registration no. CRD42024515725. [ABSTRACT FROM AUTHOR]

Published

2024

24. The impact of Bacillus thuringiensis var. israelensis (Vectobac® WDG) larvicide sprayed with drones on the bio-control of malaria vectors in rice fields of sub-urban Kigali, Rwanda.

Author

Munyakanage, Dunia, Niyituma, Elias, Mutabazi, Alphonse, Misago, Xavier, Musanabaganwa, Clarisse, Remera, Eric, Rutayisire, Eric, Ingabire, Mamy Muziga, Majambere, Silas, Mbituyumuremyi, Aimable, Ngugi, Mathew Piero, Kokwaro, Elizabeth, Hakizimana, Emmanuel, and Muvunyi, Claude Mambo

Subjects

*INSECTICIDE-treated mosquito nets, *COMMUNITY health workers, *ANOPHELES gambiae, *BACILLUS thuringiensis, *PADDY fields

Abstract

Background: The core vector control tools used to reduce malaria prevalence are currently long-lasting insecticidal nets (LLINs), and indoor residual spraying (IRS). These interventions are hindered by insecticide resistance and behavioural adaptation by malaria vectors. Thus, for effective interruption of malaria transmission, there is a need to develop novel vector control interventions and technologies to address the above challenges. Larviciding using drones was experimented as an innovative tool that could complement existing indoor interventions to control malaria. Methods: A non-randomized larviciding trial was carried out in irrigated rice fields in sub-urban Kigali, Rwanda. Potential mosquito larval habitats in study sites were mapped and subsequently sprayed using multirotor drones. Application of Bacillus thuringiensis var. israelensis (Bti) (Vectobac® WDG) was followed by entomological surveys that were performed every two weeks over a ten-month period. Sampling of mosquito larvae was done with dippers while adult mosquitoes were collected using CDC miniature light traps (CDC-LT) and pyrethrum spraying collection (PSC) methods. Malaria cases were routinely monitored through community health workers in villages surrounding the study sites. Results: The abundance of all-species mosquito larvae, Anopheles larvae and all-species pupae declined by 68.1%, 74.6% and 99.6%, respectively. Larval density was reduced by 93.3% for total larvae, 95.3% for the Anopheles larvae and 61.9% for pupae. The total adult mosquitoes and Anopheles gambiae sensu lato collected using CDC-Light trap declined by 60.6% and 80% respectively. Malaria incidence also declined significantly between intervention and control sites (U = 20, z = − 2.268, p = 0.023). Conclusions: The larviciding using drone technology implemented in Rwanda demonstrated a substantial reduction in abundance and density of mosquito larvae and, concomitant decline in adult mosquito populations and malaria incidences in villages contingent to the treatment sites. The scaling up of larval source management (LSM) has to be integrated in malaria programmes in targeted areas of malaria transmission in order to enhance the gains in malaria control. [ABSTRACT FROM AUTHOR]

Published

2024

25. Gut symbiont-derived sphingosine modulates vector competence in Aedes mosquitoes.

Author

Sun, Xiaomei, Wang, Yanhong, Yuan, Fei, Zhang, Yanan, Kang, Xun, Sun, Jian, Wang, Pengcheng, Lu, Tengfei, Sae Wang, Fanny, Gu, Jinbao, Wang, Jinglin, Xia, Qianfeng, Zheng, Aihua, and Zou, Zhen

Subjects

ZIKA virus infections, AEDES aegypti, ZIKA virus, AEDES, MOSQUITOES, DENGUE viruses

Abstract

The main vectors of Zika virus (ZIKV) and dengue virus (DENV) are Aedes aegypti and Ae. albopictus, with Ae. aegypti being more competent. However, the underlying mechanisms remain unclear. Here, we find Ae. albopictus shows comparable vector competence to ZIKV/DENV with Ae. aegypti by blood-feeding after antibiotic treatment or intrathoracic injection. This suggests that midgut microbiota can influence vector competence. Enterobacter hormaechei_B17 (Eh_B17) is isolated from field-collected Ae. albopictus and conferred resistance to ZIKV/DENV infection in Ae. aegypti after gut-transplantation. Sphingosine, a metabolite secreted by Eh_B17, effectively suppresses ZIKV infection in both Ae. aegypti and cell cultures by blocking viral entry during the fusion step, with an IC50 of approximately 10 μM. A field survey reveals that Eh_B17 preferentially colonizes Ae. albopictus compared to Ae. aegypti. And field Ae. albopictus positive for Eh_B17 are more resistant to ZIKV infection. These findings underscore the potential of gut symbiotic bacteria, such as Eh_B17, to modulate the arbovirus vector competence of Aedes mosquitoes. As a natural antiviral agent, Eh_B17 holds promise as a potential candidate for blocking ZIKV/DENV transmission. Here the authors show that arbovirus vector competence of Aedes mosquitoes is modulated by the midgut microbiota and identify the metabolite sphingosine from the gut symbiotic bacterium Enterobacter hormaechei_B17 (Eh_B17) as a factor mediating resistance to ZIKV and DENV infection. [ABSTRACT FROM AUTHOR]

Published

2024

26. Predation risk and resource availability interactively affect the oviposition behavior of Aedes aegypti.

Author

Custódio, Jane Larissa de Melo, Jorge, Jean Patrick da Silva, Jorge, Jaqueiuto da Silva, Freire, Renato César de Melo, Brambilla, Paula Blandy Tissot, Guariento, Rafael Dettogni, Caliman, Adriano, and Carneiro, Luciana Silva

Subjects

*MOSQUITOES, *PREDATION, *MOSQUITO-borne diseases, *TROPICAL medicine, *AEDES aegypti, *RISK perception, *OVIPARITY

Abstract

Mosquitoes transmit viruses that affect public health in tropical regions. Identifying factors that influence their fitness can help control mosquito-borne diseases. We investigated the impacts of predation risk effects, from a fish predator, and food availability on the oviposition behavior of Aedes aegypti. We hypothesize that predation risk and food availability interactively affect Ae. aegypti oviposition. Gravid Ae. aegypti females were offered oviposition sites with all possible combinations of predation risk (with vs. without predator cues) and food availability (low vs. high). We found a significant interaction between predation risk and food availability. The magnitude of oviposition and the probability of egg laying in high food availability treatments exceeded the values of low food availability treatments, but only in treatments without predation risk. Predation risk critically modulated the effects of food availability on the oviposition of Ae. aegypti. This study demonstrates the interplay between predation risk and food availability in controlling mosquito-borne diseases. [ABSTRACT FROM AUTHOR]

Published

2024

27. AnophelesModel: An R package to interface mosquito bionomics, human exposure and intervention effects with models of malaria intervention impact.

Author

Golumbeanu, Monica, Briët, Olivier, Champagne, Clara, Lemant, Jeanne, Winkel, Munir, Zogo, Barnabas, Gerhards, Maximilian, Sinka, Marianne, Chitnis, Nakul, Penny, Melissa, Pothin, Emilie, and Smith, Tom

Subjects

*HUMAN behavior, *MALARIA prevention, *VECTOR control, *ANOPHELES, *MOSQUITOES

Abstract

In recent decades, field and semi-field studies of malaria transmission have gathered geographic-specific information about mosquito ecology, behaviour and their sensitivity to interventions. Mathematical models of malaria transmission can incorporate such data to infer the likely impact of vector control interventions and hence guide malaria control strategies in various geographies. To facilitate this process and make model predictions of intervention impact available for different geographical regions, we developed AnophelesModel. AnophelesModel is an online, open-access R package that quantifies the impact of vector control interventions depending on mosquito species and location-specific characteristics. In addition, it includes a previously published, comprehensive, curated database of field entomological data from over 50 Anopheles species, field data on mosquito and human behaviour, and estimates of vector control effectiveness. Using the input data, the package parameterizes a discrete-time, state transition model of the mosquito oviposition cycle and infers species-specific impacts of various interventions on vectorial capacity. In addition, it offers formatted outputs ready to use in downstream analyses and by other models of malaria transmission for accurate representation of the vector-specific components. Using AnophelesModel, we show how the key implications for intervention impact change for various vectors and locations. The package facilitates quantitative comparisons of likely intervention impacts in different geographical settings varying in vector compositions, and can thus guide towards more robust and efficient malaria control recommendations. The AnophelesModel R package is available under a GPL-3.0 license at https://github.com/SwissTPH/AnophelesModel. [ABSTRACT FROM AUTHOR]

Published

2024

28. Oropouche Virus Disease Among U.S. Travelers -- United States, 2024.

Author

Morrison, Andrea, White, Jennifer L., Hughes, Holly R., Guagliardo, Sarah Anne J., Velez, Jason O., Fitzpatrick, Kelly A., Davis, Emily H., Stanek, Danielle, Kopp, Edgar, Dumoulin, Peter, Locksmith, Timothy, Heberlein, Lea, Zimler, Rebecca, Lassen, Joshua, Bestard, Carolina, Rico, Edhelene, Mejia-Echeverri, Alvaro, Edwards-Taylor, Kay-Anna, Holt, Douglas, and Halphen, Dionisia

Subjects

*INFECTIOUS disease transmission, *CERATOPOGONIDAE, *MYALGIA, *MOSQUITOES, *FEVER

Abstract

On August 27, 2024, this report was posted as an MMWR Early Release on the MMWR website (https://www.cdc.gov/mmwr). Beginning in late 2023, Oropouche virus was identified as the cause of large outbreaks in Amazon regions with known endemic transmission and in new areas in South America and the Caribbean. The virus is spread to humans by infected biting midges and some mosquito species. Although infection typically causes a self-limited febrile illness, reports of two deaths in patients with Oropouche virus infection and vertical transmission associated with adverse pregnancy outcomes have raised concerns about the threat of this virus to human health. In addition to approximately 8,000 locally acquired cases in the Americas, travel-associated Oropouche virus disease cases have recently been identified in European travelers returning from Cuba and Brazil. As of August 16, 2024, a total of 21 Oropouche virus disease cases were identified among U.S. travelers returning from Cuba. Most patients initially experienced fever, myalgia, and headache, often with other symptoms including arthralgia, diarrhea, nausea or vomiting, and rash. At least three patients had recurrent symptoms after the initial illness, a common characteristic of Oropouche virus disease. Clinicians and public health jurisdictions should be aware of the occurrence of Oropouche virus disease in U.S. travelers and request testing for suspected cases. Travelers should prevent insect bites when traveling, and pregnant persons should consider deferring travel to areas experiencing outbreaks of Oropouche virus disease. [ABSTRACT FROM AUTHOR]

Published

2024

29. Robust mosquito species identification from diverse body and wing images using deep learning.

Author

Nolte, Kristopher, Sauer, Felix Gregor, Baumbach, Jan, Kollmannsberger, Philip, Lins, Christian, and Lühken, Renke

Subjects

*CONVOLUTIONAL neural networks, *AEDES aegypti, *MOSQUITO-borne diseases, *ARTIFICIAL intelligence, *AEDES, *DEEP learning

Abstract

Mosquito-borne diseases are a major global health threat. Traditional morphological or molecular methods for identifying mosquito species often require specialized expertise or expensive laboratory equipment. The use of convolutional neural networks (CNNs) to identify mosquito species based on images may offer a promising alternative, but their practical implementation often remains limited. This study explores the applicability of CNNs in classifying mosquito species. It compares the efficacy of body and wing depictions across three image collection methods: a smartphone, macro-lens attached to a smartphone and a professional stereomicroscope. The study included 796 specimens of four morphologically similar Aedes species, Aedes aegypti, Ae. albopictus, Ae. koreicus and Ae. japonicus japonicus. The findings of this study indicate that CNN models demonstrate superior performance in wing-based classification 87.6% (95% CI: 84.2–91.0) compared to body-based classification 78.9% (95% CI: 77.7–80.0). Nevertheless, there are notable limitations of CNNs as they perform reliably across multiple devices only when trained specifically on those devices, resulting in an average decline of mean accuracy by 14%, even with extensive image augmentation. Additionally, we also estimate the required training data volume for effective classification, noting a reduced requirement for wing-based classification compared to body-based methods. Our study underscores the viability of both body and wing classification methods for mosquito species identification while emphasizing the need to address practical constraints in developing accessible classification systems. [ABSTRACT FROM AUTHOR]

Published

2024

30. Characterization of the microbiome of Aedes albopictus populations in different habitats from Spain and São Tomé.

Author

Melo, Tiago, Sousa, Carla Alexandra, Delacour-Estrella, Sarah, Bravo-Barriga, Daniel, and Seixas, Gonçalo

Subjects

*AEDES albopictus, *MOSQUITO control, *AEDES, *WOLBACHIA, *MOSQUITOES, *BIOMES

Abstract

The mosquito microbiome significantly influences vector competence, including in Aedes albopictus, a globally invasive vector. Describing the microbiome and Wolbachia strains of Ae. albopictus from different regions can guide area-specific control strategies. Mosquito samples from Spain and São Tomé were analyzed using 16S rRNA gene sequencing and metagenomic sequencing. Wolbachia infection patterns were observed by sex and population. Female mosquitoes were blood-fed, a factor considered in analyzing their microbiota. Results revealed a dominance of dual Wolbachia infections, strains A and B, in the microbiome of both populations of Ae. albopictus, especially among females. Both populations shared a core microbiome, although 5 and 9 other genera were only present in Spain and São Tomé populations, respectively. Genera like Pelomonas and Nevskia were identified for the first time in Aedes mosquitoes. This study is the first to describe the Ae. albopictus bacteriome in Spain and São Tomé, offering insights for the development of targeted mosquito control strategies. Understanding the specific microbiome composition can help in designing more effective interventions, such as microbiome manipulation and Wolbachia-based approaches, to reduce vector competence and transmission potential of these mosquitoes. [ABSTRACT FROM AUTHOR]

Published

2024

31. Identification and functional analysis of C-type lectin from mosquito Aedes albopictus in response to dengue virus infection.

Author

Gao, Sheng, Xu, Haodong, Li, Hongbo, Feng, Xiao, Zhou, Jitao, Guo, Renxian, Liang, Zihan, Ding, Jinying, Li, Xin, Huang, Yijia, Liu, Wenquan, and Liang, Shaohui

Subjects

*AEDES aegypti, *AEDES albopictus, *GENE expression, *DENGUE viruses, *MOSQUITOES

Abstract

Background: C-type lectins (CTLs) are a large family of proteins with sugar-binding activity. CTLs contain an evolutionarily conserved C-type lectin domain (CTLD) that binds microbial carbohydrates in a calcium-dependent manner, thereby playing a key role in both microbial pathogenesis and innate immune responses. Aedes albopictus is an important vector for transmitting dengue virus (DENV) worldwide. Currently, the molecular characteristics and functions of CTLs in Ae. albopictus are largely unknown. Methods: Transcripts encoding CTL proteins in the Ae. albopictus genome assembly were analyzed via sequence blast. Phylogenetic analysis and molecular characterization were performed to identify the functional domains of the CTLs. Quantitative analysis was performed to determine the gene expression features of CTLs during mosquito development and in different tissues of female adults after blood feeding. In addition, the functional role of CTLs in response to DENV infection was investigated in Ae. albopictus mosquito cells. Results: We identified 39 transcripts encoding CTL proteins in the Ae. albopictus transcriptome. Aedes albopictus CTLs are classified into three groups based on the number of CTLDs and the domain architecture. These included 29 CTL-Ss (single-CTLDs), 1 immulectins (dual-CTLD) and 9 CTL-Xs (CTLDs with other domains). Phylogenetic analysis and structural modeling indicated that CTLs in Ae. albopictus are highly conserved with the homologous CTLs in Aedes aegypti. The expression profile assay revealed differential expression patterns of CTLs in both developmental stages and in adult female tissues. Knockdown and overexpression of three CTLs (CTL-S12, S17 and S19) confirmed that they can promote dengue virus infection in Ae. albopictus cells. Conclusions: The CTL genes in Ae. albopictus mosquito and other mosquito species are evolutionarily conserved and exhibit different developmental and tissue expression features. The functional assay indicated that three CTLs in Ae. albopictus mosquitoes are involved in promoting dengue virus infection. Our study revealed that CTLs play important roles in both the physiological processes and viral infection in mosquito vectors. [ABSTRACT FROM AUTHOR]

Published

2024

32. Detection of two alphaviruses: Middelburg virus and Sindbis virus from enzootic amplification cycles in southwestern Uganda.

Author

Graff, Selina Laura, Eibner, Georg Joachim, Ochieng, James Robert, Jones, Terry C., Mutebi Nsubuga, Anthony, Lutwama, Julius Julian, Bidason Rwego, Innocent, and Junglen, Sandra

Subjects

CULEX, GENETIC variation, ALPHAVIRUSES, TOGAVIRUSES, VERTEBRATES, MOSQUITOES

Abstract

Our knowledge of alphavirus genetic diversity is mainly based on viruses isolated from anthropophilic mosquito species, humans, and livestock during outbreaks. Studies on alphaviruses from sylvatic amplification cycles in sub-Saharan Africa have been conducted less often than from epizootic environments. To gain insight into alphavirus diversity in enzootic transmission cycles, we collected over 23,000 mosquitoes in lowland rainforest and savannah gallery forest in southwestern Uganda and tested them for alphavirus infections. We detected Sindbis virus (SINV) in a Culex Culex sp. mosquito and Middelburg virus (MIDV) in Eretmapodites intermedius and Mansonia africana. MIDV is a mosquito-borne alphavirus that causes febrile illness in sheep, goats, and horses and was previously not known to occur in Uganda. SINV, also a mosquito-borne alphavirus, causes mild infections in humans. Full genomes of SINV and MIDV were sequenced, showing a nucleotide identity of 99% to related strains. Both isolates replicated to high titres in a wide variety of vertebrate cells. Our data suggest endemic circulation of SINV and MIDV in Uganda. [ABSTRACT FROM AUTHOR]

Published

2024

33. Distribution of vectors and arboviruses, and healthcare workers' knowledge of vector-borne diseases in Armenia.

Author

Babayan, Lilit, Manucharyan, Arsen, Paronyan, Lusine, Vardanyan, Haykuhi, Danielyan, Ruben, Melik-Andreasyan, Gayane, and Achenbach, Jenna E.

Subjects

*ARBOVIRUS diseases, *MEDICAL personnel, *WEST Nile virus, *CULEX pipiens, *VECTOR-borne diseases, *ARBOVIRUSES

Abstract

Introduction: Armenia's favorable geographical and climatic conditions support mosquitoes, sandflies, and ticks that can transmit various diseases. This study aimed to determine the prevalence of these vectors and circulating arboviruses in Armenia and assess healthcare workers' knowledge of arboviral diseases. Methodology: In 2021, we conducted fieldwork, combining morphological identification of vectors with polymerase chain reaction (PCR) analysis of pathogens to map the distribution of potential arbovirus vectors across Armenia. Results: Our entomological surveys identified four mosquito genera--Anopheles, Aedes, Culex, and Culiseta--comprising 20 species; and 11 species of Ixodidae ticks. Culex pipiens was found in all 11 regions, while Culiseta spp. was absent in Ararat Province. PCR testing of mosquito and tick samples revealed Crimean-Congo hemorrhagic fever virus (CCHFV) in 13 tick samples, but West Nile virus (WNV) was not detected in mosquitoes. Specifically, 13 out of 525 Ixodes tick pools tested positive for CCHFV; the positive samples originated from Hyalomma marginatum ticks in Syunik's Sisian region. None of the 11 pools that contained 473 Cx. pipiens mosquitoes tested positive for WNV. Analysis of questionnaires from 499 healthcare workers showed that epidemiologists, infectious disease specialists, and family doctors had greater awareness of arboviral diseases than other specialists. However, there was a low rate of sample submission for laboratory diagnosis and confirmation. Conclusions: The extensive presence of vectors combined with limited knowledge of arboviral diseases complicates disease understanding in Armenia. Strengthening the surveillance system through training and improved sample collection is essential for disease monitoring and public health interventions. [ABSTRACT FROM AUTHOR]

Published

2024

34. Scanning Electron Microscopy of Cuticular Deformations in Culex pipiens Linnaeus, 1758 (Diptera: Culicidae) Larvae Associated with Larvicidal Effect of Nanoemulsion of Pimpinella anisum L. Essential Oil.

Author

Abdel-Nasser, Eman, Hafez, Jehan A., Badawy, Rawda M., Rizk, Sameh A., Hefni, Hassan H., and Azmy, Radwa M.

Subjects

*CULEX pipiens, *SCANNING electron microscopy, *ESSENTIAL oils, *DISEASE vectors, *MOSQUITOES

Abstract

Culex pipiens Linnaeus, 1758 is the chief vector of dangerous diseases such as lymphatic filariasis in tropic and subtropic regions. The current study aimed to investigate the larvicidal effect of nanoemulsion of Pimpinella anisum L. essential oil by studying the associated cuticular deformations in Culex pipiens larvae via scanning electron microscopy. The nanoemulsion was prepared using ultrasonication method. The mean droplet size of the nanoemulsion was 116nm, with poly dispersity index equal to 0.21. The LC50 of the nanoemulsion was 40.1ppm. The third instar larvae were treated with the LC50 of the prepared nanoemulsion. The cuticular deformations possibly inhibited the ability of the larvae to continue developing leading at the end to the death of these treated larvae. This is the first report to demonstrate the association between the nanoemulsion of Pimpinella anisum and the cuticular changes of Culex pipiens larvae. The results of the present study proved that nanoemulsion of Pimpinella anisum EO can be considered as a promising candidate in the integrated management programs to control Culex pipiens. [ABSTRACT FROM AUTHOR]

Published

2024

35. Histopathological Alterations in the Larvae of Culex pipiens L. (Diptera: Culicidae) Induced by Nanoemulsion of Pimpinella anisum L. Essential Oil.

Author

Abdel-Nasser, Eman, Hafez, Jehan A., Badawy, Rawda M., Rizk, Sameh A., Hefni, Hassan H., and Azmy, Radwa M.

Subjects

*CULEX pipiens, *INSECT pests, *TRANSMISSION electron microscopy, *VIRUS diseases, *ALKALINE phosphatase, *MOSQUITOES, *INSECTICIDES

Abstract

Culicid mosquitoes pose significant threats to both animal and human health due to their ability to transmit various parasitic and viral diseases. In light of the problems arising from the overuse of synthetic insecticides, there is an urgent need to explore alternative solutions. Nanotechnology offers promising advancements, enhancing the efficacy of products across various fields, including the food industry, pharmacy, and agriculture. One notable application is the development of nanoinsecticides, which exhibit superior penetration capabilities into target insect pests due to the small size of nanoparticles and their high efficiency resulting from a larger surface area. This research evaluated the effects of a nanoemulsion of Pimpinella anisum essential oil on the third instar larval stage of Culex pipiens. The lethal concentration (LC50) used for treatment was 40ppm. The studied nanoinsecticide induced significant histopathological and biochemical alterations in the larvae post-treatment. Biochemical assessments revealed a notable decrease in alkaline phosphatase enzyme activity in the treated larvae. Histopathological changes were analyzed using transmission electron microscopy, which showed significant alterations in muscle and midgut tissues after 24 hours of exposure to the nanoemulsion. Observed changes included cytoplasmic vacuolization, elongation of epithelial cells, damage and disorganization of microvilli, and degeneration of the muscle layer. [ABSTRACT FROM AUTHOR]

Published

2024

36. Mosquito Feeding Habits in Coastal French Guiana: Mammals in the Crosshairs?

Author

Guidez, Amandine, Tirera, Sourakhata, Talaga, Stanislas, Lacour, Guillaume, Carinci, Romuald, Darcissac, Edith, Donato, Damien, Gaborit, Pascal, Clervil, Emmanuelle, Epelboin, Yanouk, de Thoisy, Benoit, Dusfour, Isabelle, Duchemin, Jean-Bernard, and Lavergne, Anne

Subjects

*DOMESTIC animals, *CULEX, *ANIMAL species, *RIBOSOMAL RNA, *PUBLIC health, *MOSQUITOES

Abstract

Simple Summary: Mosquitoes transmit pathogens through cycles involving animals and humans. Understanding which animals mosquitoes feed on helps us to monitor these diseases. In our study, we examined blood-fed female mosquitoes from various sites in French Guiana to determine their feeding preferences. We used DNA (genetic material) present in their blood meals to identify the animals they had fed on. We discovered that most mosquitoes we studied, especially those from the Culex group, prefer feeding on mammals like humans and other animals, followed by birds, amphibians, and reptiles. We identified 46 different animal species in the blood meals. Our findings provide important information on mosquito feeding habits and help improve the tracking of diseases spread by mosquitoes, which is crucial for public health. Pathogens transmitted by mosquitoes (Diptera, Culicidae) in sylvatic or urban cycles involve wild or domestic animals and humans, driven by various mosquito species with distinct host preferences. Understanding mosquito–host associations is crucial for ecological insights and pathogen surveillance. In this study, we analyzed mosquito blood meals from coastal French Guiana by amplifying and sequencing host DNA from blood-fed females. Using the 12S ribosomal RNA gene and Sanger sequencing, we identified blood meals from 26 mosquito species across six genera, with 59% belonging to the Culex genus. Nanopore sequencing of selected samples showed 12 mosquito species with one to three mixed blood-meal sources. Mammals were the primary hosts (88%), followed by birds (7%), squamates (3%), and amphibians (2%), indicating a strong preference for mammalian hosts. A total of 46 vertebrate host species were identified, demonstrating high host diversity. This research provides insights into mosquito host usage and highlights the complexities of monitoring arboviruses of public health concern. [ABSTRACT FROM AUTHOR]

Published

2024

37. Mark–Release–Recapture Trial with Aedes albopictus (Diptera, Culicidae) Irradiated Males: Population Parameters and Climatic Factors.

Author

Amaro, Fátima Isabel Falcão, Soares, Patricia, Velo, Enkelejda, Carvalho, Danilo Oliveira, Gomez, Maylen, Balestrino, Fabrizio, Puggioli, Arianna, Bellini, Romeo, and Osório, Hugo Costa

Subjects

*AEDES albopictus, *DENGUE viruses, *WEATHER, *PARAMETERS (Statistics), *INTRODUCED species

Abstract

Simple Summary: Aedes albopictus mosquitoes spread arboviruses like dengue, Zika, or chikungunya. The Sterile Insect Technique (SIT) can be used as a prevention and control tool against Ae. albopictus populations. Mark–release–recapture (MRR) trials are fundamental to estimate the size of the wild population in target areas and to determine the dispersal capacity and survival of sterile males in open field conditions. Environmental conditions can affect the MRR trial's results; thus, the influence of climatic factors on the first MRR trial with Ae. albopictus marked sterile males conducted in Portugal was analyzed. In October 2022, for three consecutive weeks at two different release points, 84,000 sterile males were released over 50 ha of the study area, in the municipality of Faro, Southern Portugal, and mosquitoes were recaptured by human landing collection (HLC) one, two, four, and six days after release. Distance travelled, daily survival, and life expectancy in the field were estimated for the released sterile males and the influence of climatic factors was analyzed. Despite no statistically significant association being found with humidity, temperature, and precipitation, it is crucial to plan MRRs, considering weather conditions for a more efficient application of the SIT in an integrated vector management program. Aedes albopictus is considered one of the major invasive species in the world and can transmit viruses such as dengue, Zika, or chikungunya. The Sterile Insect Technique (SIT) can be used to suppress the native populations of Ae. albopictus. Mark–release–recapture (MRR) studies are crucial to support the development of the release strategy during the SIT application. Meanwhile, weather conditions can affect the MRR trial's results and it is critical to understand the influence of climatic factors on the results. In October 2022, 84,000 irradiated sterile males were released for three consecutive weeks in Faro, Southern Portugal. Mosquitoes were recaptured by human landing collection (HLC) one, two, four, and six days after release. Generalized linear models with a negative binomial family and log function were used to estimate the factors associated with the number of recaptured mosquitoes, prevalence ratios, and the 95% confidence intervals (CIs). A total of 84,000 sterile male mosquitoes were released, with 528 recaptured (0.8%) by HLC. The prevalence of recaptured mosquitoes was 23% lower when the wind intensity was moderate. Marked sterile males had an average median distance travelled of 88.7 m. The median probability of daily survival and the average life expectancy were 61.6% and 2.1 days, respectively. The wild male population estimate was 443.33 males/ha. Despite no statistically significant association being found with humidity, temperature, and precipitation, it is important to consider weather conditions during MRR trial analyses to obtain the best determinant estimation and a more efficient application of the SIT in an integrated vector management program. [ABSTRACT FROM AUTHOR]

Published

2024

38. MALDI-TOF MS Profiling and Its Contribution to Mosquito-Borne Diseases: A Systematic Review.

Author

Costa, Monique Melo, Corbel, Vincent, Ben Hamouda, Refka, and Almeras, Lionel

Subjects

*SCIENTIFIC literature, *MOSQUITO-borne diseases, *MORPHOLOGY, *ARTHROPOD vectors, *VECTOR-borne diseases, *MOSQUITO control

Abstract

Simple Summary: The deadliest animal in the world is, by far, the mosquito, which spreads numerous viral and parasitic infectious diseases. To control mosquito populations and improve surveillance and personal protective measures, the establishment of rapid, simple, and economic strategies to characterize mosquito fauna and its specific life traits is essential for effective vector management. The present study synthesizes existing evidence on the application of an innovative approach—matrix-assisted laser desorption/ionization–time-of-flight mass spectrometry (MALDI-TOF MS) profiling/biotyping—for the identification of mosquitoes and the analysis of certain life traits, such as vector species, blood-feeding sources, pathogenic agents within the mosquito, and its susceptibility to insecticides. The reliability, low cost, and high-throughput capacity make the MALDI-TOF MS profiling a valuable tool for monitoring and controlling mosquito-borne diseases. These findings, based on this innovative approach, have important implications for public health stakeholders in improving mosquito identification, surveillance, and management of vector-borne diseases. Mosquito-borne diseases are responsible for hundreds of thousands of deaths per year. The identification and control of the vectors that transmit pathogens to humans are crucial for disease prevention and management. Currently, morphological classification and molecular analyses via DNA barcoding are the standard methods used for vector identification. However, these approaches have several limitations. In the last decade, matrix-assisted laser desorption/ionization–time-of-flight mass spectrometry (MALDI-TOF MS) profiling has emerged as an innovative technology in biological sciences and is now considered as a relevant tool for the identification of pathogens and arthropods. Beyond species identification, this tool is also valuable for determining various life traits of arthropod vectors. The purpose of the present systematic review was to highlight the contribution of MALDI-TOF MS to the surveillance and control of mosquito-borne diseases. Published articles from January 2003 to August 2024 were retrieved, focusing on different aspects of mosquito life traits that could be determinants in disease transmission and vector management. The screening of the scientific literature resulted in the selection of 54 published articles that assessed MALDI-TOF MS profiling to study various mosquito biological factors, such species identification, life expectancy, gender, trophic preferences, microbiota, and insecticide resistance. Although a large majority of the selected articles focused on species identification, the present review shows that MALDI-TOF MS profiling is promising for rapidly identifying various mosquito life traits, with high-throughput capacity, reliability, and low cost. The strengths and weaknesses of this proteomic tool for vector control and surveillance are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

39. Unleashing Nature's Allies: Comparing the Vertical Transmission Dynamics of Insect-Specific and Vertebrate-Infecting Flaviviruses in Mosquitoes.

Author

Peterson, Alyssa J., Hall, Roy A., Harrison, Jessica J., Hobson-Peters, Jody, and Hugo, Leon E.

Subjects

*ARBOVIRUSES, *ARBOVIRUS diseases, *VIRUS diseases, *INFECTIOUS disease transmission, *INFECTION, *AEDES aegypti, *MOSQUITOES, *MOSQUITO control

Abstract

Insect-specific viruses (ISVs) include viruses that are restricted to the infection of mosquitoes and are spread mostly through transovarial transmission. Despite using a distinct mode of transmission, ISVs are often phylogenetically related to arthropod-borne viruses (arboviruses) that are responsible for human diseases and able to infect both mosquitoes and vertebrates. ISVs can also induce a phenomenon called "superinfection exclusion", whereby a primary ISV infection in an insect inhibits subsequent viral infections of the insect. This has sparked interest in the use of ISVs for the control of pathogenic arboviruses transmitted by mosquitoes. In particular, insect-specific flaviviruses (ISFs) have been shown to inhibit infection of vertebrate-infecting flaviviruses (VIFs) both in vitro and in vivo. This has shown potential as a new and ecologically friendly biological approach to the control of arboviral disease. For this intervention to have lasting impacts for biological control, it is imperative that ISFs are maintained in mosquito populations with high rates of vertical transmission. Therefore, these strategies will need to optimise vertical transmission of ISFs in order to establish persistently infected mosquito lines for sustainable arbovirus control. This review compares recent observations of vertical transmission of arboviral and insect-specific flaviviruses and potential determinants of transovarial transmission rates to understand how the vertical transmission of ISFs may be optimised for effective arboviral control. [ABSTRACT FROM AUTHOR]

Published

2024

40. Differing Transcriptomic Responses in High Titer versus Low Titer Aedes aegypti Mosquitoes after Oral Infection with Sindbis Virus.

Author

Hodoameda, Peter, Ditter, Robert E., Santos, Scott R., and Clem, Rollie J.

Subjects

*AEDES aegypti, *ION transport (Biology), *MOSQUITO vectors, *MOSQUITOES, *LIPID metabolism

Abstract

Oral infection of mosquitoes by arboviruses often results in a large degree of variation in the amount of infectious virus between individual mosquitoes, even when the mosquitoes are from inbred laboratory strains. This variability in arbovirus load has been shown to affect virus transmissibility. Previously, our group described population genetic and specific infectivity differences between the virus populations found in high and low titer Aedes aegypti mosquitoes that had been orally infected with Sindbis virus (SINV). In this study, we sought to investigate whether there were also differences in transcriptomic response between these high and low titer mosquitoes. Results from the transcriptomic data analysis showed that more genes involved in antiviral activity, endopeptidase activity, and methyltransferase activity were upregulated in low titer mosquitoes than in high titer mosquitoes, relative to blood-fed controls. Meanwhile, genes involved in ion transport, energy metabolism, acetylation, glycosylation, lipid metabolism, and transport tended to be upregulated in high titer mosquitoes more than in low titer mosquitoes, relative to blood-fed mosquitoes. Overall, genes involved in antiviral activities tended to be upregulated in low titer mosquitoes while genes involved in proviral activities were mostly upregulated in high titer mosquitoes. This study has identified a number of candidate mosquito genes that are putatively associated with SINV titer variability after oral infection of Ae. aegypti, and these can now be investigated in order to ascertain their roles in virus replication and their contributions to determining vector competence. [ABSTRACT FROM AUTHOR]

Published

2024

41. The First Isolation of Insect-Specific Alphavirus (Agua Salud alphavirus) in Culex (Melanoconion) Mosquitoes in the Brazilian Amazon.

Author

Ramos, Bruna, Carvalho, Valéria, da Silva, Eliana, Freitas, Maria, Barros, Landeson Junior, Santos, Maissa, Pantoja, Jamilla Augusta, Gonçalves, Ercília, Nunes Neto, Joaquim, Junior, José Wilson, Vieira, Durval, Dias, Daniel, Cruz, Ana Cecília, Nunes, Bruno, Silva, Sandro, Aragão, Carine, Casseb, Alexandre, and Martins, Lívia

Subjects

*CULEX, *NUCLEOTIDE sequencing, *CELL culture, *MOSQUITOES, *METROPOLITAN areas, *ALPHAVIRUSES

Abstract

Advances in diagnostic techniques coupled with ongoing environmental changes have resulted in intensified surveillance and monitoring of arbovirus circulation in the Amazon. This increased effort has resulted in increased detection of insect-specific viruses among hematophagous arthropods collected in the field. This study aimed to document the first isolation of Agua Salud alphavirus in mosquitoes collected within the Brazilian Amazon. Arthropods belonging to the family Culicidae were collected within a forest fragment located in the Environmental Protection Area of the metropolitan region of Belem. Subsequently, these specimens were meticulously identified to the species level. Afterward, the collected batches were macerated, and the resulting supernatant was then inoculated into C6/36 and Vero cell cultures to facilitate viral isolation. The presence of arboviruses within the inoculated cell cultures was determined through indirect immunofluorescence analysis. Furthermore, positive supernatant samples underwent nucleotide sequencing to precisely identify the viral strains present. Notably, a batch containing Culex (Melanoconion) mosquitoes was identified to be positive for the genus Alphavirus via indirect immunofluorescence. This study is the first report on insect-specific alphavirus isolation in Brazil and the first-ever description of Agua Salud alphavirus isolation within Amazon Forest remnants. [ABSTRACT FROM AUTHOR]

Published

2024

42. The complexities of blood‐feeding patterns in mosquitoes and sandflies and the burden of disease: A minireview.

Author

Bursali, Fatma and Touray, Mustapha

Subjects

*MOSQUITO control, *INFECTIOUS disease transmission, *SAND flies, *MOSQUITO vectors, *DIPTERA

Abstract

Mosquitoes and sandflies exhibit a wide range of blood feeding patterns, targeting a wide range of vertebrate species, including birds, mammals, reptiles, and amphibians, for proteins vital for egg development. This broad host range increases the opportunity for them to acquire pathogens of numerous debilitating‐and‐fatal diseases from various animal reservoirs, playing a significant role in disease crossover between animals and humans, also known as zoonotic transmission. This review focuses on the intricate blood‐feeding habits of these dipteran vectors, their sensory systems and the complex dance between host and pathogen during disease transmission. We delve into the influence of blood sources on pathogen spread by examining the insect immune response and its intricate interplay with pathogens. The remarkable sense of smell guiding them towards food sources and hosts is explored, highlighting the interplay of multiple sensory cues in their navigation. Finally, we examine the challenges in mosquito control strategies and explore innovations in this field, emphasizing the need for sustainable solutions to combat this global health threat. By understanding the biology and behaviour of these insects, we can develop more effective strategies to protect ourselves and mitigate the burden of vector‐borne diseases. [ABSTRACT FROM AUTHOR]

Published

2024

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

Author

Buultjens, Andrew H., Tay, Ee Laine, Yuen, Aidan, Friedman, N. Deborah, Stinear, Timothy P., and Johnson, Paul D. R.

Subjects

*BURULI ulcer, *MOSQUITO vectors, *MYCOBACTERIUM, *INFECTION, *MOSQUITOES

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. [ABSTRACT FROM AUTHOR]

Published

2024

44. Loop-Mediated Isothermal Amplification Assay to Detect Invasive Malaria Vector Anopheles stephensi Mosquitoes.

Author

Rafferty, Cristina, Raise, Gloria, Scaife, JeNyiah, Abongo, Bernard, Omondi, Seline, Milanoi, Sylvia, Muchoki, Margaret, Onyango, Brenda, Ochomo, Eric, and Zohdy, Sarah

Subjects

*ANOPHELES stephensi, *MALARIA, *MOSQUITOES, *LABORATORY equipment & supplies

Abstract

Spread of the Anopheles stephensi mosquito, an invasive malaria vector, threatens to put an additional 126 million persons per year in Africa at risk for malaria. To accelerate the early detection and rapid response to this mosquito species, confirming its presence and geographic extent is critical. However, existing molecular species assays require specialized laboratory equipment, interpretation, and sequencing confirmation. We developed and optimized a colorimetric rapid loop-mediated isothermal amplification assay for molecular An. stephensi species identification. The assay requires only a heat source and reagents and can be used with or without DNA extraction, resulting in positive color change in 30–35 minutes. We validated the assay against existing PCR techniques and found 100% specificity and analytical sensitivity down to 0.0003 ng of genomic DNA. The assay can successfully amplify single mosquito legs. Initial testing on samples from Marsabit, Kenya, illustrate its potential as an early vector detection and malaria mitigation tool. [ABSTRACT FROM AUTHOR]

Published

2024

45. Analysis of a diffusive two-strain malaria model with the carrying capacity of the environment for mosquitoes.

Author

Jinliang Wang, Wenjing Wu, and Yuming Chen

Subjects

*MALARIA, *MOSQUITOES, *REACTION-diffusion equations, *LOGISTICS, *DIFFUSION

Abstract

We propose a malaria model involving the sensitive and resistant strains, which is described by reaction-diffusion equations. The model reflects the scenario that the vector and host populations disperse with distinct diffusion rates, susceptible individuals or vectors cannot be infected by both strains simultaneously, and the vector population satisfies the logistic growth. Our main purpose is to get a threshold type result on the model, especially the interaction effect of the two strains in the presence of spatial structure. To solve this issue, the basic reproduction number (BRN) Ri0 and invasion reproduction number (IRN) Ri0 of each strain (i = 1 and 2 are for the sensitive and resistant strains, respectively) are defined. Furthermore, we investigate the influence of the diffusion rates of populations and vectors on BRNs and IRNs. [ABSTRACT FROM AUTHOR]

Published

2024

46. A Review on the Exploration of Genomic Approaches to Malaria Prevention and Treatment in Nigeria.

Author

ADEROYEJE, T. G. and ERHUANGA, O. G.

Abstract

Malaria poses a significant global health challenge, with nearly half a million deaths annually, predominantly in sub-Saharan Africa. Nigeria alone accounts for over 24% of global cases, with severe impacts on children under five and pregnant women. Hence, this review explores the various genomic approaches being employed in the fight against malaria, including genomic surveillance of Plasmodium parasites, genetic modification of mosquito vectors, and host genomic studies for personalized medicine by harvesting information from Online sources and libraries. Information obtained reveals that Traditional control methods--such as insecticide-treated bed nets, indoor residual spraying, and antimalarial drugs--face challenges like drug resistance and vector adaptation. Recent advances in genomic technologies offer promising new avenues for malaria prevention and treatment by providing insights into the biology of the parasite, mosquito vector, and human host. [ABSTRACT FROM AUTHOR]

Published

2024

47. دراسة تأثير التراكيز القاتلة لبعض الادوية والمواد الكيميائية على عذارى البعوض Culex pipiens molestus Forskal.

Author

الفت تحسين ياسين and منيف عبد مصطفى

Abstract

Copyright of Journal of Education & Science is the property of Republic of Iraq Ministry of Higher Education & Scientific Research (MOHESR) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

48. Mosquitoes on a chip—environmental DNA-based detection of invasive mosquito species using high-throughput real-time PCR.

Author

Wittwer, Claudia, Sharif, Chinhda, Schöck, Isabelle, and Klimpel, Sven

Subjects

INTRODUCED species, AEDES, WATER sampling, MOSQUITOES, ANIMAL health

Abstract

The monitoring of mosquitoes is of great importance due to their vector competence for a variety of pathogens, which have the potential to imperil human and animal health. Until now mosquito occurrence data is mainly obtained with conventional monitoring methods including active and passive approaches, which can be time- and cost-consuming. New monitoring methods based on environmental DNA (eDNA) could serve as a fast and robust complementary detection system for mosquitoes. In this pilot study already existing marker systems targeting the three invasive mosquito species Aedes (Ae.) albopictus, Ae. japonicus and Ae. koreicus were used to detect these species from water samples via microfluidic array technology. We compared the performance of the high-throughput real-time PCR (HT-qPCR) system Biomark HD with real-time PCR (qPCR) and also tested the effect of different filter media (Sterivex® 0.45 µm, Nylon 0.22 µm, PES 1.2 µm) on eDNA detectability. By using a universal qPCR protocol and only 6-FAM-MGB probes we successfully transferred these marker systems on the HT-qPCR platform. All tested marker systems detected the target species at most sites, where their presence was previously confirmed. Filter media properties, the final filtration volume and observed qPCR inhibition did not affect measured Ct values via qPCR or HT-qPCR. The Ct values obtained from HT-qPCR were significantly lower as Ct values measured by qPCR due to the previous preamplification step, still these values were highly correlated. Observed incongruities in eDNA detection probability, as manifested by non-reproducible results and false positive detections, could be the result of methodological aspects, such as sensitivity and specificity issues of the used assays, or ecological factors such as varying eDNA release patterns. In this study, we show the suitability of eDNA-based detection of mosquito species from water samples using a microfluidic HT-qPCR platform. HT-qPCR platforms such as Biomark HD allow for massive upscaling of tested species-specific assays and sampling sites with low time- and cost-effort, thus this methodology could serve as basis for large-scale mosquito monitoring attempts. The main goal in the future is to develop a robust (semi)-quantitative microfluidic-based eDNA mosquito chip targeting all haematophagous culicid species occurring in Western Europe. This chip would enable large-scale eDNA-based screenings to assess mosquito diversity, to monitor species with confirmed or suspected vector competence, to assess the invasion progress of invasive mosquito species and could be used in pathogen surveillance, when disease agents are incorporated. [ABSTRACT FROM AUTHOR]

Published

2024

49. Public health contributions of entomological surveillance of West Nile virus (WNV) and other mosquito-borne arboviruses in a context of climate change.

Author

Bakhiyi, Bouchra, Irace-Cima, Alejandra, Ludwig, Antoinette, Rakotoarinia, Miarisoa Rindra, Therrien, Christian, Dusfour, Isabelle, and Adam-Poupart, Ariane

Subjects

WEST Nile virus, HEALTH risk assessment, ENCEPHALITIS viruses, MOSQUITO vectors, GREY literature

Abstract

Background: Climate change is likely to increase the risk of human transmission of arboviruses endemic to Canada, including West Nile virus (WNV), Eastern equine encephalitis virus (EEEV) and California serogroup virus (CSV), calling for enhanced surveillance, including entomological surveillance targeting mosquito vectors. A scoping review was carried out to document the public health contributions of entomological surveillance of arboviruses of importance in Canada. Methods: The Ovid® and EBSCO platforms and the grey literature were searched to identify documents published between 2009 and 2023, in English or French, dealing with entomological surveillance of arboviruses of interest, conducted annually for human health purposes under the aegis of a government authority, with specified public health objectives and actions. Results: The 42 selected publications mainly reported two public health objectives of adult mosquito surveillance: early warning of viral circulation and assessment of the level of risk of human transmission. Recommended actions included clinical preparedness, risk communication, promotion of personal protection measures and vector control. The main objectives of immature mosquito surveillance were to identify sites with high larval densities, in order to reduce/eliminate them and target the application of larvicides. Conclusion: In a context of climate change favouring the spread of arboviruses, this study highlights the potential public health contributions of regular entomological surveillance of endemic arboviruses of importance in Canada. It helps support concrete actions to protect the health of the population from the risks of arboviral transmission. [ABSTRACT FROM AUTHOR]

Published

2024

50. Neotropical Bats play natural predators of medically important Culicidae.

Author

SEGURA-TRUJILLO, CINTYA A., TICUL ÁLVAREZ-CASTAÑEDA, SERGIO, CASTAÑEDA-RICO, SUSETTE, and MALDONADO, JESÚS E.

Subjects

BIOLOGICAL control of mosquitoes, BIOLOGICAL pest control agents, INSECT pests, DISEASE vectors, MOSQUITO vectors

Abstract

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Published

2024