Pyrethroid resistance in Culex pipiens mosquitoes

•Pyrethroid insecticides are frequently used to control Culex pipiens mosquitoes.•High levels of pyrethroid resistance are found in larvae throughout the world.•Multiple Vssc mutations have been found in resistant strains.•Overexpression of CYP9M10 appears to be a mechanism of resistance globally. M...

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Published inPesticide Biochemistry and Physiology Vol. 120; pp. 68 - 76
Main Authors Scott, Jeffrey G., Yoshimizu, Melissa Hardstone, Kasai, Shinji
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.05.2015
Elsevier BV
Subjects
Animals
China
Culex
Culex - drug effects
Culex - genetics
Culex - physiology
Culex pipiens
cytochrome P-450
Cytochrome P450 monooxygenase
environmental factors
Fitness costs
gene overexpression
human diseases
Humans
Insect Vectors
Insecticide Resistance
Insecticide Resistance - genetics
Insecticides
Insecticides - toxicity
Japan
kdr
Knockdown resistance
larvae
Mechanisms of resistance
mutation
Pyrethrins
Pyrethrins - toxicity
Pyrethroid insecticides
resistance mechanisms
Saudi Arabia
Saudi Arabia
China
Japan
Fitness costs
kdr
Pyrethroid insecticides
Cytochrome P450 monooxygenase
Mechanisms of resistance
Knockdown resistance
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Abstract •Pyrethroid insecticides are frequently used to control Culex pipiens mosquitoes.•High levels of pyrethroid resistance are found in larvae throughout the world.•Multiple Vssc mutations have been found in resistant strains.•Overexpression of CYP9M10 appears to be a mechanism of resistance globally. Mosquitoes within the Culex pipiens complex are widely distributed and important in the transmission of many human diseases. Insecticides, pyrethroids in particular, remain a mainstay for control of these important vectors. In this paper we review what is known about the levels, mechanisms and fitness costs of pyrethroid resistance in Cx. pipiens. Pyrethroid resistance in Cx. pipiens is a global problem, and resistance ratios of up to 7000-fold have been found in larvae of field collected mosquitoes. However, there is considerable variation between populations, indicating significant geographic heterogeneity of the resistance. The two major mechanisms of resistance to pyrethroids in Culex are mutations in Vssc (target site insensitivity) and overexpression of cytochrome P450(s) (increased detoxification). The most frequently reported Vssc mutation is L1014F (i.e. kdr), which has been found throughout the world. The L1014S mutation has been found in Cx. p. pallens from Japan and China, and in Cx. p. pipiens from China. The L1014C mutation has only been reported for Cx. p. pipens molestus from China and the V1016G mutation has only been reported from Saudi Arabia. Studies on the P450s of Cx. pipiens have identified several that are overexpressed (measured as transcript levels) in pyrethroid resistant strains. CYP9M10 is consistently overexpressed in pyrethroid resistant Cx. pipiens from at least seven countries, suggesting this P450 might be of global importance in resistance. Both CYP9M10-mediated pyrethroid resistance and kdr have fitness costs in the absence of insecticides under certain environmental conditions. Research needs and future directions are discussed.
AbstractList Mosquitoes within the Culex pipiens complex are widely distributed and important in the transmission of many human diseases. Insecticides, pyrethroids in particular, remain a mainstay for control of these important vectors. In this paper we review what is known about the levels, mechanisms and fitness costs of pyrethroid resistance in Cx.pipiens. Pyrethroid resistance in Cx.pipiens is a global problem, and resistance ratios of up to 7000-fold have been found in larvae of field collected mosquitoes. However, there is considerable variation between populations, indicating significant geographic heterogeneity of the resistance. The two major mechanisms of resistance to pyrethroids in Culex are mutations in Vssc (target site insensitivity) and overexpression of cytochrome P450(s) (increased detoxification). The most frequently reported Vssc mutation is L1014F (i.e. kdr), which has been found throughout the world. The L1014S mutation has been found in Cx.p.pallens from Japan and China, and in Cx.p.pipiens from China. The L1014C mutation has only been reported for Cx.p.pipensmolestus from China and the V1016G mutation has only been reported from Saudi Arabia. Studies on the P450s of Cx.pipiens have identified several that are overexpressed (measured as transcript levels) in pyrethroid resistant strains. CYP9M10 is consistently overexpressed in pyrethroid resistant Cx.pipiens from at least seven countries, suggesting this P450 might be of global importance in resistance. Both CYP9M10-mediated pyrethroid resistance and kdr have fitness costs in the absence of insecticides under certain environmental conditions. Research needs and future directions are discussed.
Mosquitoes within the Culex pipiens complex are widely distributed and important in the transmission of many human diseases. Insecticides, pyrethroids in particular, remain a mainstay for control of these important vectors. In this paper we review what is known about the levels, mechanisms and fitness costs of pyrethroid resistance in Cx. pipiens. Pyrethroid resistance in Cx. pipiens is a global problem, and resistance ratios of up to 7000-fold have been found in larvae of field collected mosquitoes. However, there is considerable variation between populations, indicating significant geographic heterogeneity of the resistance. The two major mechanisms of resistance to pyrethroids in Culex are mutations in Vssc (target site insensitivity) and overexpression of cytochrome P450(s) (increased detoxification). The most frequently reported Vssc mutation is L1014F (i.e. kdr), which has been found throughout the world. The L1014S mutation has been found in Cx. p. pallens from Japan and China, and in Cx. p. pipiens from China. The L1014C mutation has only been reported for Cx. p. pipens molestus from China and the V1016G mutation has only been reported from Saudi Arabia. Studies on the P450s of Cx. pipiens have identified several that are overexpressed (measured as transcript levels) in pyrethroid resistant strains. CYP9M10 is consistently overexpressed in pyrethroid resistant Cx. pipiens from at least seven countries, suggesting this P450 might be of global importance in resistance. Both CYP9M10-mediated pyrethroid resistance and kdr have fitness costs in the absence of insecticides under certain environmental conditions. Research needs and future directions are discussed.
Mosquitoes within the Culex pipiens complex are widely distributed and important in the transmission of many human diseases. Insecticides, pyrethroids in particular, remain a mainstay for control of these important vectors. In this paper we review what is known about the levels, mechanisms and fitness costs of pyrethroid resistance in Cx. pipiens. Pyrethroid resistance in Cx. pipiens is a global problem, and resistance ratios of up to 7000-fold have been found in larvae of field collected mosquitoes. However, there is considerable variation between populations, indicating significant geographic heterogeneity of the resistance. The two major mechanisms of resistance to pyrethroids in Culex are mutations in Vssc (target site insensitivity) and overexpression of cytochrome P450(s) (increased detoxification). The most frequently reported Vssc mutation is L1014F (i.e. kdr), which has been found throughout the world. The L1014S mutation has been found in Cx. p. pallens from Japan and China, and in Cx. p. pipiens from China. The L1014C mutation has only been reported for Cx. p. pipens molestus from China and the V1016G mutation has only been reported from Saudi Arabia. Studies on the P450s of Cx. pipiens have identified several that are overexpressed (measured as transcript levels) in pyrethroid resistant strains. CYP9M10 is consistently overexpressed in pyrethroid resistant Cx. pipiens from at least seven countries, suggesting this P450 might be of global importance in resistance. Both CYP9M10-mediated pyrethroid resistance and kdr have fitness costs in the absence of insecticides under certain environmental conditions. Research needs and future directions are discussed.Mosquitoes within the Culex pipiens complex are widely distributed and important in the transmission of many human diseases. Insecticides, pyrethroids in particular, remain a mainstay for control of these important vectors. In this paper we review what is known about the levels, mechanisms and fitness costs of pyrethroid resistance in Cx. pipiens. Pyrethroid resistance in Cx. pipiens is a global problem, and resistance ratios of up to 7000-fold have been found in larvae of field collected mosquitoes. However, there is considerable variation between populations, indicating significant geographic heterogeneity of the resistance. The two major mechanisms of resistance to pyrethroids in Culex are mutations in Vssc (target site insensitivity) and overexpression of cytochrome P450(s) (increased detoxification). The most frequently reported Vssc mutation is L1014F (i.e. kdr), which has been found throughout the world. The L1014S mutation has been found in Cx. p. pallens from Japan and China, and in Cx. p. pipiens from China. The L1014C mutation has only been reported for Cx. p. pipens molestus from China and the V1016G mutation has only been reported from Saudi Arabia. Studies on the P450s of Cx. pipiens have identified several that are overexpressed (measured as transcript levels) in pyrethroid resistant strains. CYP9M10 is consistently overexpressed in pyrethroid resistant Cx. pipiens from at least seven countries, suggesting this P450 might be of global importance in resistance. Both CYP9M10-mediated pyrethroid resistance and kdr have fitness costs in the absence of insecticides under certain environmental conditions. Research needs and future directions are discussed.
•Pyrethroid insecticides are frequently used to control Culex pipiens mosquitoes.•High levels of pyrethroid resistance are found in larvae throughout the world.•Multiple Vssc mutations have been found in resistant strains.•Overexpression of CYP9M10 appears to be a mechanism of resistance globally. Mosquitoes within the Culex pipiens complex are widely distributed and important in the transmission of many human diseases. Insecticides, pyrethroids in particular, remain a mainstay for control of these important vectors. In this paper we review what is known about the levels, mechanisms and fitness costs of pyrethroid resistance in Cx. pipiens. Pyrethroid resistance in Cx. pipiens is a global problem, and resistance ratios of up to 7000-fold have been found in larvae of field collected mosquitoes. However, there is considerable variation between populations, indicating significant geographic heterogeneity of the resistance. The two major mechanisms of resistance to pyrethroids in Culex are mutations in Vssc (target site insensitivity) and overexpression of cytochrome P450(s) (increased detoxification). The most frequently reported Vssc mutation is L1014F (i.e. kdr), which has been found throughout the world. The L1014S mutation has been found in Cx. p. pallens from Japan and China, and in Cx. p. pipiens from China. The L1014C mutation has only been reported for Cx. p. pipens molestus from China and the V1016G mutation has only been reported from Saudi Arabia. Studies on the P450s of Cx. pipiens have identified several that are overexpressed (measured as transcript levels) in pyrethroid resistant strains. CYP9M10 is consistently overexpressed in pyrethroid resistant Cx. pipiens from at least seven countries, suggesting this P450 might be of global importance in resistance. Both CYP9M10-mediated pyrethroid resistance and kdr have fitness costs in the absence of insecticides under certain environmental conditions. Research needs and future directions are discussed.
Author Yoshimizu, Melissa Hardstone
Scott, Jeffrey G.
Kasai, Shinji
Author_xml – sequence: 1
  givenname: Jeffrey G.
  surname: Scott
  fullname: Scott, Jeffrey G.
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  surname: Kasai
  fullname: Kasai, Shinji
  organization: Department of Entomology, Comstock Hall, Cornell University, Ithaca, New York, USA
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Thu Aug 07 14:21:08 EDT 2025
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Wed Feb 19 01:58:33 EST 2025
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Fri Feb 23 02:27:56 EST 2024
IsPeerReviewed true
IsScholarly true
Keywords Fitness costs
kdr
Pyrethroid insecticides
Cytochrome P450 monooxygenase
Mechanisms of resistance
Knockdown resistance
Language English
License Copyright © 2014 Elsevier Inc. All rights reserved.
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Snippet •Pyrethroid insecticides are frequently used to control Culex pipiens mosquitoes.•High levels of pyrethroid resistance are found in larvae throughout the...
Mosquitoes within the Culex pipiens complex are widely distributed and important in the transmission of many human diseases. Insecticides, pyrethroids in...
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SubjectTerms Animals
China
Culex
Culex - drug effects
Culex - genetics
Culex - physiology
Culex pipiens
cytochrome P-450
Cytochrome P450 monooxygenase
environmental factors
Fitness costs
gene overexpression
human diseases
Humans
Insect Vectors
Insecticide Resistance
Insecticide Resistance - genetics
Insecticides
Insecticides - toxicity
Japan
kdr
Knockdown resistance
larvae
Mechanisms of resistance
mutation
Pyrethrins
Pyrethrins - toxicity
Pyrethroid insecticides
resistance mechanisms
Saudi Arabia
Title Pyrethroid resistance in Culex pipiens mosquitoes
URI https://dx.doi.org/10.1016/j.pestbp.2014.12.018
https://cir.nii.ac.jp/crid/1873679867651399424
https://www.ncbi.nlm.nih.gov/pubmed/25987223
https://www.proquest.com/docview/1696887059
https://www.proquest.com/docview/1732824376
https://www.proquest.com/docview/1836646558
Volume 120
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