Contemporary status of insecticide resistance in the major Aedes vectors of arboviruses infecting humans
Both Aedes aegytpi and Ae. albopictus are major vectors of 5 important arboviruses (namely chikungunya virus, dengue virus, Rift Valley fever virus, yellow fever virus, and Zika virus), making these mosquitoes an important factor in the worldwide burden of infectious disease. Vector control using in...
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| Vydané v: | PLoS neglected tropical diseases Ročník 11; číslo 7; s. e0005625 |
|---|---|
| Hlavní autori: | , , , , , , , , , , |
| Médium: | Journal Article |
| Jazyk: | English |
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United States
Public Library of Science
20.07.2017
Public Library of Science (PLoS) |
| Predmet: | |
| ISSN: | 1935-2735, 1935-2727, 1935-2735 |
| On-line prístup: | Získať plný text |
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| Abstract | Both Aedes aegytpi and Ae. albopictus are major vectors of 5 important arboviruses (namely chikungunya virus, dengue virus, Rift Valley fever virus, yellow fever virus, and Zika virus), making these mosquitoes an important factor in the worldwide burden of infectious disease. Vector control using insecticides coupled with larval source reduction is critical to control the transmission of these viruses to humans but is threatened by the emergence of insecticide resistance. Here, we review the available evidence for the geographical distribution of insecticide resistance in these 2 major vectors worldwide and map the data collated for the 4 main classes of neurotoxic insecticide (carbamates, organochlorines, organophosphates, and pyrethroids). Emerging resistance to all 4 of these insecticide classes has been detected in the Americas, Africa, and Asia. Target-site mutations and increased insecticide detoxification have both been linked to resistance in Ae. aegypti and Ae. albopictus but more work is required to further elucidate metabolic mechanisms and develop robust diagnostic assays. Geographical distributions are provided for the mechanisms that have been shown to be important to date. Estimating insecticide resistance in unsampled locations is hampered by a lack of standardisation in the diagnostic tools used and by a lack of data in a number of regions for both resistance phenotypes and genotypes. The need for increased sampling using standard methods is critical to tackle the issue of emerging insecticide resistance threatening human health. Specifically, diagnostic doses and well-characterised susceptible strains are needed for the full range of insecticides used to control Ae. aegypti and Ae. albopictus to standardise measurement of the resistant phenotype, and calibrated diagnostic assays are needed for the major mechanisms of resistance. |
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| AbstractList | Both Aedes aegytpi and Ae. albopictus are major vectors of 5 important arboviruses (namely chikungunya virus, dengue virus, Rift Valley fever virus, yellow fever virus, and Zika virus), making these mosquitoes an important factor in the worldwide burden of infectious disease. Vector control using insecticides coupled with larval source reduction is critical to control the transmission of these viruses to humans but is threatened by the emergence of insecticide resistance. Here, we review the available evidence for the geographical distribution of insecticide resistance in these 2 major vectors worldwide and map the data collated for the 4 main classes of neurotoxic insecticide (carbamates, organochlorines, organophosphates, and pyrethroids). Emerging resistance to all 4 of these insecticide classes has been detected in the Americas, Africa, and Asia. Target-site mutations and increased insecticide detoxification have both been linked to resistance in Ae. aegypti and Ae. albopictus but more work is required to further elucidate metabolic mechanisms and develop robust diagnostic assays. Geographical distributions are provided for the mechanisms that have been shown to be important to date. Estimating insecticide resistance in unsampled locations is hampered by a lack of standardisation in the diagnostic tools used and by a lack of data in a number of regions for both resistance phenotypes and genotypes. The need for increased sampling using standard methods is critical to tackle the issue of emerging insecticide resistance threatening human health. Specifically, diagnostic doses and well-characterised susceptible strains are needed for the full range of insecticides used to control Ae. aegypti and Ae. albopictus to standardise measurement of the resistant phenotype, and calibrated diagnostic assays are needed for the major mechanisms of resistance. Both Aedes aegytpi and Ae. albopictus are major vectors of 5 important arboviruses (namely chikungunya virus, dengue virus, Rift Valley fever virus, yellow fever virus, and Zika virus), making these mosquitoes an important factor in the worldwide burden of infectious disease. Vector control using insecticides coupled with larval source reduction is critical to control the transmission of these viruses to humans but is threatened by the emergence of insecticide resistance. Here, we review the available evidence for the geographical distribution of insecticide resistance in these 2 major vectors worldwide and map the data collated for the 4 main classes of neurotoxic insecticide (carbamates, organochlorines, organophosphates, and pyrethroids). Emerging resistance to all 4 of these insecticide classes has been detected in the Americas, Africa, and Asia. Target-site mutations and increased insecticide detoxification have both been linked to resistance in Ae. aegypti and Ae. albopictus but more work is required to further elucidate metabolic mechanisms and develop robust diagnostic assays. Geographical distributions are provided for the mechanisms that have been shown to be important to date. Estimating insecticide resistance in unsampled locations is hampered by a lack of standardisation in the diagnostic tools used and by a lack of data in a number of regions for both resistance phenotypes and genotypes. The need for increased sampling using standard methods is critical to tackle the issue of emerging insecticide resistance threatening human health. Specifically, diagnostic doses and well-characterised susceptible strains are needed for the full range of insecticides used to control Ae. aegypti and Ae. albopictus to standardise measurement of the resistant phenotype, and calibrated diagnostic assays are needed for the major mechanisms of resistance.Both Aedes aegytpi and Ae. albopictus are major vectors of 5 important arboviruses (namely chikungunya virus, dengue virus, Rift Valley fever virus, yellow fever virus, and Zika virus), making these mosquitoes an important factor in the worldwide burden of infectious disease. Vector control using insecticides coupled with larval source reduction is critical to control the transmission of these viruses to humans but is threatened by the emergence of insecticide resistance. Here, we review the available evidence for the geographical distribution of insecticide resistance in these 2 major vectors worldwide and map the data collated for the 4 main classes of neurotoxic insecticide (carbamates, organochlorines, organophosphates, and pyrethroids). Emerging resistance to all 4 of these insecticide classes has been detected in the Americas, Africa, and Asia. Target-site mutations and increased insecticide detoxification have both been linked to resistance in Ae. aegypti and Ae. albopictus but more work is required to further elucidate metabolic mechanisms and develop robust diagnostic assays. Geographical distributions are provided for the mechanisms that have been shown to be important to date. Estimating insecticide resistance in unsampled locations is hampered by a lack of standardisation in the diagnostic tools used and by a lack of data in a number of regions for both resistance phenotypes and genotypes. The need for increased sampling using standard methods is critical to tackle the issue of emerging insecticide resistance threatening human health. Specifically, diagnostic doses and well-characterised susceptible strains are needed for the full range of insecticides used to control Ae. aegypti and Ae. albopictus to standardise measurement of the resistant phenotype, and calibrated diagnostic assays are needed for the major mechanisms of resistance. |
| Audience | Academic |
| Author | Martins, Ademir J. Vontas, John Pinto, João Raghavendra, Kamaraju Weetman, David Ng, Lee Ching Koou, Sin Ying Moyes, Catherine L. Dusfour, Isabelle Corbel, Vincent David, Jean-Philippe |
| AuthorAffiliation | 4 Laboratório de Fisiologia e Controle de Artrópodes Vetores, Instituto Oswaldo Cruz, Fundação Oswaldo Cruz (FIOCRUZ), Manguinhos, Rio de Janeiro, Rio de Janeiro, Brazil 5 Environmental Health Institute, National Environment Agency, Helios Block, Singapore 8 Global Health and Tropical Medicine (GHTM), Instituto de Higiene e Medicina Tropical (IHMT), Universidade Nova de Lisboa (UNL), Lisbon, Portugal Johns Hopkins Bloomberg School of Public Health, UNITED STATES 9 Institut de Recherche pour le Développement (IRD), Maladies Infectieuses et Vecteurs, Ecologie, Génétique, Evolution et Contrôle (MIVEGEC), Montpellier, France 7 Insecticides and Insecticide Resistance Lab, National Institute of Malaria Research (ICMR), Delhi, India 1 Oxford Big Data Institute, Li Ka Shing Centre for Health Information and Discovery, University of Oxford, Oxford, United Kingdom 2 Institute of Molecular Biology and Biotechnology, Foundation for Research and Technology-Hellas, Heraklion, Greece 6 Unité d'Entomologie Mé |
| AuthorAffiliation_xml | – name: 4 Laboratório de Fisiologia e Controle de Artrópodes Vetores, Instituto Oswaldo Cruz, Fundação Oswaldo Cruz (FIOCRUZ), Manguinhos, Rio de Janeiro, Rio de Janeiro, Brazil – name: 6 Unité d'Entomologie Médicale, Institut Pasteur de la Guyane, Cayenne, French Guiana – name: 9 Institut de Recherche pour le Développement (IRD), Maladies Infectieuses et Vecteurs, Ecologie, Génétique, Evolution et Contrôle (MIVEGEC), Montpellier, France – name: 1 Oxford Big Data Institute, Li Ka Shing Centre for Health Information and Discovery, University of Oxford, Oxford, United Kingdom – name: 10 Laboratoire d'Ecologie Alpine (LECA), Centre National de la Recherche Scientifique (CNRS), University Grenoble-Alpes (UGA), Grenoble, France – name: 8 Global Health and Tropical Medicine (GHTM), Instituto de Higiene e Medicina Tropical (IHMT), Universidade Nova de Lisboa (UNL), Lisbon, Portugal – name: 11 Department of Vector Biology, Liverpool School of Tropical Medicine, Liverpool, United Kingdom – name: 5 Environmental Health Institute, National Environment Agency, Helios Block, Singapore – name: 7 Insecticides and Insecticide Resistance Lab, National Institute of Malaria Research (ICMR), Delhi, India – name: Johns Hopkins Bloomberg School of Public Health, UNITED STATES – name: 3 Department of Crop Science, Pesticide Science Lab, Agricultural University of Athens, Athens, Greece – name: 2 Institute of Molecular Biology and Biotechnology, Foundation for Research and Technology-Hellas, Heraklion, Greece |
| Author_xml | – sequence: 1 givenname: Catherine L. orcidid: 0000-0002-8028-4079 surname: Moyes fullname: Moyes, Catherine L. – sequence: 2 givenname: John surname: Vontas fullname: Vontas, John – sequence: 3 givenname: Ademir J. surname: Martins fullname: Martins, Ademir J. – sequence: 4 givenname: Lee Ching surname: Ng fullname: Ng, Lee Ching – sequence: 5 givenname: Sin Ying surname: Koou fullname: Koou, Sin Ying – sequence: 6 givenname: Isabelle surname: Dusfour fullname: Dusfour, Isabelle – sequence: 7 givenname: Kamaraju surname: Raghavendra fullname: Raghavendra, Kamaraju – sequence: 8 givenname: João surname: Pinto fullname: Pinto, João – sequence: 9 givenname: Vincent surname: Corbel fullname: Corbel, Vincent – sequence: 10 givenname: Jean-Philippe surname: David fullname: David, Jean-Philippe – sequence: 11 givenname: David surname: Weetman fullname: Weetman, David |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/28727779$$D View this record in MEDLINE/PubMed https://hal.umontpellier.fr/hal-02013555$$DView record in HAL |
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| Copyright | COPYRIGHT 2017 Public Library of Science 2017 Public Library of Science. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited: vectors of arboviruses infecting humans. PLoS Negl Trop Dis 11(7): e0005625. https://doi.org/10.1371/journal.pntd.0005625 Attribution 2017 Moyes et al 2017 Moyes et al 2017 Public Library of Science. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited: vectors of arboviruses infecting humans. PLoS Negl Trop Dis 11(7): e0005625. https://doi.org/10.1371/journal.pntd.0005625 |
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| SubjectTerms | Aedes - drug effects Aedes - genetics Aedes - virology Aedes aegypti Aedes albopictus Africa Agrochemicals Americas Animal biology Animals Aquatic insects Arboviruses Arboviruses - classification Arboviruses - pathogenicity Asia Biological Assay Biology and Life Sciences Carbamate pesticides Carbamates Carbamates (tradename) Coccidioidomycosis Dengue Dengue fever Detoxification Diagnostic software Diagnostic systems Disease control Disease transmission Environmental health Genotypes Geographical distribution Health Human diseases Humans Inactivation, Metabolic Infectious diseases Insect Control - methods Insect Vectors - drug effects Insect Vectors - genetics Insect Vectors - virology Insecticide resistance Insecticide Resistance - genetics Insecticides Insecticides - classification Insecticides - pharmacology Invertebrate Zoology Larva - drug effects Life Sciences Malaria Measurement Medicine and Health Sciences Microbiological strains Mosquitoes Mutation Neurotoxicity Open access Organic phosphorus compounds Organochlorine compounds Organophosphates Parasites Pesticide resistance Phenotypes Physical Sciences Pyrethroids Reduction Review Rift Valley fever Santé publique et épidémiologie Strains Transmission Tropical diseases Vaccines Vector-borne diseases Vectors Viral diseases Viruses Zika virus |
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| Title | Contemporary status of insecticide resistance in the major Aedes vectors of arboviruses infecting humans |
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| Volume | 11 |
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