Journal Article


Metabolic resistance and not voltage-gated sodium channel gene mutation is associated with pyrethroid resistance of Aedes albopictus (Skuse, 1894) from Cambodia

Abstract

(1) Background: In Cambodia, Aedes albopictus is an important vector of the dengue virus. Vector control using insecticides is a major strategy implemented in managing mosquito-borne diseases. Resistance, however, threatens to undermine the use of insecticides. In this study, we present the levels of insecticide resistance of Ae. albopictus in Cambodia and the mechanisms involved. (2) Methods: Two Ae. albopictus populations were collected from the capital, Phnom Penh city, and from rural Pailin province. Adults were tested with diagnostic doses of malathion (0.8%), deltamethrin (0.03%), permethrin (0.25%), and DDT (4%) using WHO tube assays. Synergist assays using piperonyl butoxide (PBO) were implemented before the pyrethroid assays to detect the potential involvement of metabolic resistance mechanisms. Adult female mosquitoes collected from Phnom Penh and Pailin were tested for voltage-gated sodium channel (VGSC) kdr (knockdown resistance) mutations commonly found in Aedes sp.-resistant populations throughout Asia (S989P, V1016G, and F1534C), as well as for other mutations (V410L, L982W, A1007G, I1011M, T1520I, and D1763Y). (3) Results: The two populations showed resistance against all the insecticides tested (<90% mortality). The use of PBO (an inhibitor of P450s) strongly restored the efficacy of deltamethrin and permethrin against the two resistant populations. Sequences of regions of the vgsc gene showed a lack of kdr mutations known to be associated with pyrethroid resistance. However, four novel non-synonymous mutations (L412P/S, C983S, Q1554STOP, and R1718L) and twenty-nine synonymous mutations were detected. It remains to be determined whether these mutations contribute to pyrethroid resistance. (4) Conclusions: Pyrethroid resistance is occurring in two Ae. albopictus populations originating from urban and rural areas of Cambodia. The resistance is likely due to metabolic resistance specifically involving P450s monooxygenases. The levels of resistance against different insecticide classes are a cause for concern in Cambodia. Alternative tools and insecticides for controlling dengue vectors should be used to minimize disease prevalence in the country.

Attached files

Authors

Marcombe, Sébastien
Doeurk, Bros
Thammavong, Phoutmany
Veseli, Tuba
Heafield, Christian
Mills, Molly-Ann
Kako, Sedra
Ferreira Prado, Marcelly
Thomson, Shakira
Millett, Saffron
Hill, Timothy
Kentsley, Imogen
Davies, Shereena
Pathiraja, Geethika
Daniels, Ben
Browne, Lucianna
Nyamukanga, Miranda
Harvey, Jess
Rubinstein, Lyranne
Townsend, Chloe
Allen, Zack
Davey-Spence, Christopher
Hupi, Adina
Jones, Andrew K.
Boyer, Sebastien

Oxford Brookes departments

Department of Biological and Medical Sciences

Dates

Year of publication: 2024
Date of RADAR deposit: 2024-05-17


Creative Commons License This work is licensed under a Creative Commons Attribution 4.0 International License


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