Characterizing pyrethroid resistance and mechanisms in Anopheles gambiae (s.s.) and Anopheles arabiensis from 11 districts in Uganda

Henry Ddumba Mawejje , David Weetman , Adrienne Epstein , Amy Lynd , Jimmy Opigo , Catherine Maiteki-Sebuguzi , Jo Lines , Moses R. Kamya , Philip J. Rosenthal , Martin J. Donnelly , Grant Dorsey , Sarah G. Staedke
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Abstract

Insecticide resistance threatens recent progress on malaria control in Africa. To characterize pyrethroid resistance in Uganda, Anopheles gambiae (s.s.) and Anopheles arabiensis were analyzed from 11 sites with varied vector control strategies. Mosquito larvae were collected between May 2018 and December 2020. Sites were categorized as receiving no indoor-residual spraying (‘no IRS’, n ​= ​3); where IRS was delivered from 2009 to 2014 and in 2017 and then discontinued (‘IRS stopped’, n ​= ​4); and where IRS had been sustained since 2014 (‘IRS active’, n ​= ​4). IRS included bendiocarb, pirimiphos methyl and clothianidin. All sites received long-lasting insecticidal nets (LLINs) in 2017. Adult mosquitoes were exposed to pyrethroids; with or without piperonyl butoxide (PBO). Anopheles gambiae (s.s.) and An. arabiensis were identified using PCR. Anopheles gambiae (s.s.) were genotyped for Vgsc-995S/F, Cyp6aa1, Cyp6p4-I236M, ZZB-TE, Cyp4j5-L43F and Coeae1d, while An. arabiensis were examined for Vgsc-1014S/F. Overall, 2753 An. gambiae (s.l.), including 1105 An. gambiae (s.s.) and 1648 An. arabiensis were evaluated. Species composition varied by site; only nine An. gambiae (s.s.) were collected from ‘IRS active’ sites, precluding species-specific comparisons. Overall, mortality following exposure to permethrin and deltamethrin was 18.8% (148/788) in An. gambiae (s.s.) and 74.6% (912/1222) in An. arabiensis. Mortality was significantly lower in An. gambiae (s.s.) than in An. arabiensis in ‘no IRS’ sites (permethrin: 16.1 vs 67.7%, P ​< ​0.001; deltamethrin: 24.6 vs 83.7%, P ​< ​0.001) and in ‘IRS stopped’ sites (permethrin: 11.3 vs 63.6%, P ​< ​0.001; deltamethrin: 25.6 vs 88.9%, P ​< ​0.001). When PBO was added, mortality increased for An. gambiae (s.s.) and An. arabiensis. Most An. gambiae (s.s.) had the Vgsc-995S/F mutation (95% frequency) and the Cyp6p4-I236M resistance allele (87%), while the frequency of Cyp4j5 and Coeae1d were lower (52% and 55%, respectively). Resistance to pyrethroids was widespread and higher in An. gambiae (s.s.). Where IRS was active, An. arabiensis dominated. Addition of PBO to pyrethroids increased mortality, supporting deployment of PBO LLINs. Further surveillance of insecticide resistance and assessment of associations between genotypic markers and phenotypic outcomes are needed to better understand mechanisms of pyrethroid resistance and to guide vector control.

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乌干达11个地区冈比亚按蚊和阿拉伯按蚊对拟除虫菊酯类杀虫剂的抗性特征及其机制
杀虫剂耐药性威胁着非洲疟疾控制的最新进展。为了表征乌干达对拟除虫菊酯的抗性,采用不同的媒介控制策略对11个地点的冈比亚按蚊和阿拉伯按蚊进行了分析。蚊子幼虫是在2018年5月至2020年12月期间采集的。现场被归类为未接受室内残留喷洒(“无IRS”,n​=​3) ;IRS于2009年至2014年和2017年交付,然后终止(“IRS停止”,n​=​4) ;以及自2014年以来IRS一直持续的情况(“IRS活跃”,n​=​4) 。IRS包括苯二卡、甲基吡米磷和噻虫胺。2017年,所有地点都收到了长效驱虫蚊帐。成虫接触拟除虫菊酯类杀虫剂;具有或不具有哌啶基丁氧基(PBO)。用聚合酶链式反应鉴定冈比亚按蚊和阿拉伯按蚊。冈比亚按蚊(s.s.)进行了Vgsc-995S/F、Cyp6aa1、Cyp6-I236M、ZZB-TE、Cyp4j5-L43F和Coeae1d的基因分型,而阿拉伯按蚊则进行了Vgs c-1014S/F的检测。总的来说,评估了2753株冈比亚安(s.l.),包括1105株冈比亚安和1648株阿拉伯安。物种组成因地点而异;仅从“IRS活性”位点收集到9个冈比亚安,排除了物种特异性比较。总的来说,接触氯氰菊酯和溴氰菊酯后,冈比亚和阿拉伯冈比亚的死亡率分别为18.8%(148/788)和74.6%(912/1222)。在“无IRS”位点,冈比亚的死亡率显著低于阿拉伯冈比亚(氯氰菊酯:16.1比67.7%,P​<;​0.001;溴氰菊酯:24.6%对83.7%,P​<;​0.001)和“IRS停止”位点(氯氰菊酯:11.3vs63.6%,P​<;​0.001;溴氰菊酯:25.6%对88.9%,P​<;​0.001)。当添加PBO时,冈比亚和阿拉伯安的死亡率增加。大多数冈比亚(s.s.)具有Vgsc-995S/F突变(95%的频率)和Cyp6p4-I236M抗性等位基因(87%),而Cyp4j5和Coeae1d的频率较低(分别为52%和55%)。冈比亚对拟除虫菊酯类杀虫剂的抗性普遍且较高。在IRS活跃的地方,阿拉伯安占主导地位。在拟除虫菊酯类药物中添加多溴联苯醚增加了死亡率,支持部署多溴联苯LLIN。需要进一步监测杀虫剂耐药性并评估基因型标记物和表型结果之间的相关性,以更好地了解拟除虫菊酯类耐药性的机制并指导病媒控制。
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