Looking for new strategies to fight against mosquito-borne diseases: toward the development of natural extracts for mosquito control and reduction of mosquito vector competence

The regulatory genome of the malaria vector Anopheles gambiae: integrating chromatin accessibility and gene expression

NAR Genomics and Bioinformatics ◽

10.1093/nargab/lqaa113 ◽

2021 ◽

Vol 3 (1) ◽

Author(s):

José L Ruiz ◽

Lisa C Ranford-Cartwright ◽

Elena Gómez-Díaz

Keyword(s):

Gene Expression ◽

Transcriptional Regulation ◽

Anopheles Gambiae ◽

Mosquito Control ◽

Regulatory Elements ◽

Chromatin Accessibility ◽

Malaria Vectors ◽

Specific Gene ◽

Mosquito Vector ◽

Human Malaria

Abstract Anopheles gambiae mosquitoes are primary human malaria vectors, but we know very little about their mechanisms of transcriptional regulation. We profiled chromatin accessibility by the assay for transposase-accessible chromatin by sequencing (ATAC-seq) in laboratory-reared A. gambiae mosquitoes experimentally infected with the human malaria parasite Plasmodium falciparum. By integrating ATAC-seq, RNA-seq and ChIP-seq data, we showed a positive correlation between accessibility at promoters and introns, gene expression and active histone marks. By comparing expression and chromatin structure patterns in different tissues, we were able to infer cis-regulatory elements controlling tissue-specific gene expression and to predict the in vivo binding sites of relevant transcription factors. The ATAC-seq assay also allowed the precise mapping of active regulatory regions, including novel transcription start sites and enhancers that were annotated to mosquito immune-related genes. Not only is this study important for advancing our understanding of mechanisms of transcriptional regulation in the mosquito vector of human malaria, but the information we produced also has great potential for developing new mosquito-control and anti-malaria strategies.

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Permethrin Resistance in Aedes aegypti Affects Aspects of Vectorial Capacity

Insects ◽

10.3390/insects12010071 ◽

2021 ◽

Vol 12 (1) ◽

pp. 71

Author(s):

Tse-Yu Chen ◽

Chelsea T. Smartt ◽

Dongyoung Shin

Keyword(s):

Aedes Aegypti ◽

Sodium Channel ◽

Mosquito Control ◽

Vector Competence ◽

Vectorial Capacity ◽

Parental Population ◽

Control Programs ◽

Channel Gene ◽

Sodium Channel Gene ◽

Specific Pcr

Aedes aegypti, as one of the vectors transmitting several arboviruses, is the main target in mosquito control programs. Permethrin is used to control mosquitoes and Aedes aegypti get exposed due to its overuse and are now resistant. The increasing percentage of permethrin resistant Aedes aegypti has become an important issue around the world and the potential influence on vectorial capacity needs to be studied. Here we selected a permethrin resistant (p-s) Aedes aegypti population from a wild Florida population and confirmed the resistance ratio to its parental population. We used allele-specific PCR genotyping of the V1016I and F1534C sites in the sodium channel gene to map mutations responsible for the resistance. Two important factors, survival rate and vector competence, that impact vectorial capacity were checked. Results indicated the p-s population had 20 times more resistance to permethrin based on LD50 compared to the parental population. In the genotyping study, the p-s population had more homozygous mutations in both mutant sites of the sodium channel gene. The p-s adults survived longer and had a higher dissemination rate for dengue virus than the parental population. These results suggest that highly permethrin resistant Aedes aegypti populations might affect the vectorial capacity, moreover, resistance increased the survival time and vector competence, which should be of concern in areas where permethrin is applied.

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Sequential Infection of Aedes aegypti Mosquitoes with Chikungunya Virus and Zika Virus Enhances Early Zika Virus Transmission

Insects ◽

10.3390/insects9040177 ◽

2018 ◽

Vol 9 (4) ◽

pp. 177 ◽

Cited By ~ 12

Author(s):

Tereza Magalhaes ◽

Alexis Robison ◽

Michael Young ◽

William Black ◽

Brian Foy ◽

...

Keyword(s):

Aedes Aegypti ◽

Blood Meal ◽

Zika Virus ◽

Chikungunya Virus ◽

Vector Competence ◽

Virus Transmission ◽

Mosquito Vector ◽

Molecular Aspects ◽

Virus Interactions ◽

Sequential Infection

In urban settings, chikungunya, Zika, and dengue viruses are transmitted by Aedes aegypti mosquitoes. Since these viruses co-circulate in several regions, coinfection in humans and vectors may occur, and human coinfections have been frequently reported. Yet, little is known about the molecular aspects of virus interactions within hosts and how they contribute to arbovirus transmission dynamics. We have previously shown that Aedes aegypti exposed to chikungunya and Zika viruses in the same blood meal can become coinfected and transmit both viruses simultaneously. However, mosquitoes may also become coinfected by multiple, sequential feeds on single infected hosts. Therefore, we tested whether sequential infection with chikungunya and Zika viruses impacts mosquito vector competence. We exposed Ae. aegypti mosquitoes first to one virus and 7 days later to the other virus and compared infection, dissemination, and transmission rates between sequentially and single infected groups. We found that coinfection rates were high after sequential exposure and that mosquitoes were able to co-transmit both viruses. Surprisingly, chikungunya virus coinfection enhanced Zika virus transmission 7 days after the second blood meal. Our data demonstrate heterologous arbovirus synergism within mosquitoes, by unknown mechanisms, leading to enhancement of transmission under certain conditions.

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Tumbuhan Obat: Pendekatan Alternatif dalam Pengendalian Nyamuk Aedes aegypti dan Virus Dengue Penyebab Demam Dengue

JURNAL BIOLOGI PAPUA ◽

10.31957/jbp.541 ◽

2018 ◽

Vol 4 (2) ◽

pp. 83-90

Author(s):

Ign Joko Suyono ◽

Aditya K. Karim

Keyword(s):

Medicinal Plant ◽

Aedes Aegypti ◽

Dengue Fever ◽

Mosquito Control ◽

Dengue Shock Syndrome ◽

Viral Disease ◽

Mosquito Vector ◽

Major Health ◽

Alternative Approach ◽

Control And Prevention

Dengue is the most important emerging tropical viral disease of humans in the world today. Aedes aegypti is a major mosquito vector responsible for transmitting many viral diseases and this mosquito that spreads major health problems like dengue fever. The resistance of Ae. aegypti to insecticides is already widespread and represents a serious problem for programmes aimed at the control and prevention of dengue in tropical countries. The search for compounds extracted from medicinal plant preparations as alternatives insecticide for mosquito control is in immediate need. Alternative approach for control Ae. aegypti dan virus dengue using the medicinal plant will be discussed in this paper.Key words: Medicinal plant, Aedes aegypti, dengue fever, dengue haemorragi fever, dengue shock syndrome

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Bionomics of Anopheles Arabiensis from Mamfene in KwaZulu-Natal (South Africa): An Area of High Malaria Transmission in the Province

10.21203/rs.3.rs-52165/v1 ◽

2020 ◽

Author(s):

Rajendra Maharaj ◽

Vishan Lakan ◽

Kiash Maharaj

Keyword(s):

South Africa ◽

Vector Control ◽

Anopheles Arabiensis ◽

Mosquito Control ◽

Sex Ratios ◽

Adult Mosquito ◽

Mosquito Vector ◽

Larval Control ◽

Kwazulu Natal ◽

The Impact

Abstract Background: Although great strides have been made in controlling malaria, the disease is of significant public health importance. Historically, efforts to control the vector has concentrated on adult vector control targeting the female Anopheles mosquitoes. As there is now a focus on eliminating residual malaria from KwaZulu-Natal, new strategies are being investigated to increase the impact of malaria elimination strategies. Greater attention is now being given to larval control, as a complementary measure to indoor residual spraying. However, there is a large gap in knowledge of the bionomics of the larval stages of this mosquito vector of malaria in South Africa. In order to focus on both larval and adult mosquito control methods, larval development and the reproductive stages of the vector were investigated since these variables influences our ability to impact mosquito populations through larval control. This study was therefore conducted to determine the peak eruption times and the emergent sex ratios, as well as the peak egg oviposition time in order to attack the mosquito when it is at its most vulnerable and when control interventions will have the most impact.Results: Oviposition studies showed two peaks corresponding with late evening and again just before dawn. Most eggs were also laid in the first half of the night (18h00 – midnight). Most mosquitoes erupted just after sunset and the sex ratios showed that twice as many females as males emerged. Females readily took a bloodmeal after oviposition or just after erupting. Hatch rate to viable first instar larvae was 74.5%.Conclusions: The results of this study have provided information as to when interventions would be most effective in controlling mosquito populations and have provided information that highlights the value of larval control as a complementary measure to adult mosquito control. The most vulnerable stages of the female Anopheles arabiensis are when they have just emerged or when they have just oviposited. Vector control strategies should be designed to target these vulnerable stages at the breeding sites in order to have maximum impact.

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Vector Competence: What Has Zika Virus Taught Us?

Viruses ◽

10.3390/v11090867 ◽

2019 ◽

Vol 11 (9) ◽

pp. 867 ◽

Cited By ~ 14

Author(s):

Sasha R. Azar ◽

Scott C. Weaver

Keyword(s):

Experimental Design ◽

Zika Virus ◽

Vector Competence ◽

Large Body ◽

Large Data ◽

Mosquito Vector ◽

Zikv Infection ◽

Data Set ◽

Short Period ◽

Meta Analyses

The unprecedented outbreak of Zika virus (ZIKV) infection in the Americas from 2015 to 2017 prompted the publication of a large body of vector competence data in a relatively short period of time. Although differences in vector competence as a result of disparities in mosquito populations and viral strains are to be expected, the limited competence of many populations of the urban mosquito vector, Aedes aegypti, from the Americas (when its susceptibility is viewed relative to other circulating/reemerging mosquito-borne viruses such as dengue (DENV), yellow fever (YFV), and chikungunya viruses (CHIKV)) has proven a paradox for the field. This has been further complicated by the lack of standardization in the methodologies utilized in laboratory vector competence experiments, precluding meta-analyses of this large data set. As the calls for the standardization of such studies continue to grow in number, it is critical to examine the elements of vector competence experimental design. Herein, we review the various techniques and considerations intrinsic to vector competence studies, with respect to contemporary findings for ZIKV, as well as historical findings for other arboviruses, and discuss potential avenues of standardization going forward.

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Socio-Ecological Factors Associated with Dengue Risk and Aedes aegypti Presence in the Galápagos Islands, Ecuador

International Journal of Environmental Research and Public Health ◽

10.3390/ijerph16050682 ◽

2019 ◽

Vol 16 (5) ◽

pp. 682 ◽

Cited By ~ 5

Author(s):

Sadie Ryan ◽

Catherine Lippi ◽

Ryan Nightingale ◽

Gabriela Hamerlinck ◽

Mercy Borbor-Cordova ◽

...

Keyword(s):

Aedes Aegypti ◽

Mosquito Control ◽

Dengue Infection ◽

Galapagos Islands ◽

Mosquito Vector ◽

Housing Conditions ◽

Galápagos Islands ◽

Linear Regression Models ◽

Factors Associated ◽

Attitudes And Practices

Dengue fever is an emerging infectious disease in the Galápagos Islands of Ecuador, with the first cases reported in 2002 and subsequent periodic outbreaks. We report results of a 2014 pilot study conducted in Puerto Ayora (PA) on Santa Cruz Island, and Puerto Baquerizo Moreno (PB) on San Cristobal Island. To assess the socio-ecological risk factors associated with dengue and mosquito vector presence at the household level, we conducted 100 household surveys (50 on each island) in neighborhoods with prior reported dengue cases. Adult mosquitoes were collected inside and outside the home, larval indices were determined through container surveys, and heads of households were interviewed to determine demographics, self-reported prior dengue infections, housing conditions, and knowledge, attitudes, and practices regarding dengue. Multi-model selection methods were used to derive best-fit generalized linear regression models of prior dengue infection, and Aedes aegypti presence. We found that 24% of PB and 14% of PA respondents self-reported a prior dengue infection, and more PB homes than PA homes had Ae. aegypti. The top-ranked model for prior dengue infection included several factors related to human movement, household demographics, access to water quality issues, and dengue awareness. The top-ranked model for Ae. aegypti presence included housing conditions, mosquito control practices, and dengue risk perception. This is the first study of dengue risk and Ae. aegypti presence in the Galápagos Islands.

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Effect of dengue mosquito control insecticide thermal fogging on non-target insects

International Journal of Tropical Insect Science ◽

10.1017/s1742758416000254 ◽

2016 ◽

Vol 37 (01) ◽

pp. 11-18 ◽

Cited By ~ 4

Author(s):

K.G. Thilanka N. Abeyasuriya ◽

N.W. Nalaka P. Nugapola ◽

M. Devika B. Perera ◽

W.A. Inoka P. Karunaratne ◽

S.H.P. Parakrama Karunaratne

Keyword(s):

Mosquito Control ◽

Recovery Period ◽

Mosquito Vector ◽

Dengue Vector ◽

Insect Order ◽

Severe Effect ◽

Control Programmes ◽

Control Adult ◽

Positive Controls ◽

Dengue Vector Control

AbstractDengue vector control programmes are mainly focused on insecticide fogging/space spraying to control adultAedesmosquito vector populations. Due to the diurnal habit of the vectors, spraying is routinely conducted during the day when many other insect species are also active. This study reports the simultaneous effect of fogging on non-target insects by direct counting of knockdown in the insect population. Eight fogging treatments were conducted in two sites in Kurunegala District of Sri Lanka. Pesguard insecticide was sprayed in each treatment for 8 minutes according to the standard methodology and the ‘knockdown insects’ were collected on randomly spread polyethythene sheets (10 m2). A total of 3884 insects (24.3 insects per treatment per m2) belonging to 12 orders were collected and 12.44% of them recovered during a 24-hr recovery period. Diptera was the most affected insect order (36%) followed by Collembola (30%) and Thysanoptera (17%). Out of the 31 mosquitoes (<1%) collected, only two (<0.1%) belonged to the genusAedes. Body length of 93% of the affected insects ranged from 0.35 mm to 1.8 mm. Positive controls using the WHO standard cage bioassays with the mosquitoAe. albopictus(n = 417) and the stingless beeTrigona iridipennis(n = 122) showed 100% initial knockdown, and 83.5% mosquito and 93.5% bee mortalities after the recovery period. The study shows that insecticide fogging does have a severe effect on non-target insects such as pollinators; therefore, fogging operations should be done in a controlled manner and indiscriminate fogging should be avoided.

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Rapid selection against arbovirus-induced apoptosis during infection of a mosquito vector

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.1424469112 ◽

2015 ◽

Vol 112 (10) ◽

pp. E1152-E1161 ◽

Cited By ~ 34

Author(s):

Katelyn O’Neill ◽

Bradley J. S. C. Olson ◽

Ning Huang ◽

Dave Unis ◽

Rollie J. Clem

Keyword(s):

Sindbis Virus ◽

Vector Competence ◽

Mosquito Species ◽

Infected Mosquito ◽

Nucleotide Sequencing ◽

Mosquito Vector ◽

Antiviral Defense ◽

Mosquito Cells ◽

Arbovirus Infection ◽

Induced Apoptosis

Millions of people are infected each year by arboviruses (arthropod-borne viruses) such as chikungunya, dengue, and West Nile viruses, yet for reasons that are largely unknown, only a relatively small number of mosquito species are able to transmit arboviruses. Understanding the complex factors that determine vector competence could facilitate strategies for controlling arbovirus infections. Apoptosis is a potential antiviral defense response that has been shown to be important in other virus–host systems. However, apoptosis is rarely seen in arbovirus-infected mosquito cells, raising questions about its importance as an antiviral defense in mosquitoes. We tested the effect of stimulating apoptosis during arbovirus infection by infectingAedes aegyptimosquitoes with a Sindbis virus (SINV) clone called MRE/Rpr, in which the MRE-16 strain of SINV was engineered to express the proapoptotic genereaperfromDrosophila. MRE/Rpr exhibited an impaired infection phenotype that included delayed midgut infection, delayed virus replication, and reduced virus accumulation in saliva. Nucleotide sequencing of thereaperinsert in virus populations isolated from individual mosquitoes revealed evidence of rapid and strong selection against maintenance of Reaper expression in MRE/Rpr-infected mosquitoes. The impaired phenotype of MRE/Rpr, coupled with the observed negative selection against Reaper expression, indicates that apoptosis is a powerful defense against arbovirus infection in mosquitoes and suggests that arboviruses have evolved mechanisms to avoid stimulating apoptosis in mosquitoes that serve as vectors.

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Crowdsourcing for large-scale mosquito (Diptera: Culicidae) sampling

The Canadian Entomologist ◽

10.4039/tce.2014.27 ◽

2014 ◽

Vol 147 (1) ◽

pp. 118-123 ◽

Cited By ~ 5

Author(s):

Elin C. Maki ◽

Lee W. Cohnstaedt

Keyword(s):

Large Scale ◽

Mosquito Control ◽

Mosquito Species ◽

Local Level ◽

The United States ◽

Mosquito Vector ◽

Culex Tarsalis ◽

Aedes Vexans ◽

Control Programmes ◽

And Control

AbstractSampling a cosmopolitan mosquito (Diptera: Culicidae) species throughout its range is logistically challenging and extremely resource intensive. Mosquito control programmes and regional networks operate at the local level and often conduct sampling activities across much of North America. A method for large-scale sampling of two mosquito species using crowdsourcing to network with these local and regional programmes is described. A total of 961 mosquito vector and control districts, health departments, and individual collectors across the United States of America and Canada were contacted in 2011 and 2012 of which 9% positively responded by sending mosquitoes. In total, 1101 unique population samples of Aedes vexans (Meigen) and Culex tarsalis Coquillett were collected throughout their range in these two countries. Aedes vexans outgroup samples were also submitted from Europe and Asia. This is the largest crowd-sourced collection of samples to date.

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