杀虫剂抗性改变了蚊子对避蚊胺和天然驱避剂的反应。
Insecticide resistance modifies mosquito response to DEET and natural repellents.
机构信息
Cirad - Montpellier University - UPR Hortsys, Montpellier, France.
International Centre of Insect Physiology and Ecology (icipe), Nairobi, Kenya.
出版信息
Parasit Vectors. 2019 Mar 12;12(1):89. doi: 10.1186/s13071-019-3343-9.
Abstract
BACKGROUND
Pyrethroid and organophosphate resistance in the malaria vector Anopheles gambiae has led to the search for not only alternative insecticides, but also repellent chemical compounds. However, little is known about the potential actions of repellents and the cross-resistance risk between insecticide and repellent compounds.
METHODS
Here we show the action of permethrin, DEET, geraniol, carvacrol, culminaldehyde and cinnamaldehyde against three A. gambiae strains: 'Kis' (Kisumu susceptible strain), 'KdrKis' (pyrethroid resistant strain) and 'AcerKis' (organophosphate resistant strain), the last two differing from the first by a mutation on the kdr and ace1 genes, respectively.
CONCLUSIONS
Results from the DEET assays show it induced repellency for the resistant KdrKis and AcerKis strains but maintained irritancy for the susceptible strain. More generally, we show resistance genes modify the behavior of An. gambiae, increasing or decreasing the effectiveness of DEET and natural compounds, depending on the mutation. These findings offer a new avenue for research on the target and mechanism of repellent compounds. We discuss these findings in the context of vector control strategies.
摘要
背景
疟蚊按蚊对拟除虫菊酯和有机磷的抗药性,不仅导致人们寻找替代杀虫剂,也导致人们寻找驱避化学物质。然而,对于驱避剂的潜在作用以及杀虫剂和驱避剂化合物之间的交叉抗性风险知之甚少。
方法
在这里,我们展示了氯菊酯、避蚊胺、香叶醇、香芹酚、肉桂醛和肉桂醛对三种按蚊菌株的作用:“Kis”(基苏木敏感株)、“KdrKis”(拟除虫菊酯抗性株)和“AcerKis”(有机磷抗性株),后两者分别因 kdr 和 ace1 基因的突变而与前者不同。
结论
避蚊胺试验的结果表明,它对抗性 KdrKis 和 AcerKis 菌株有驱避作用,但对敏感菌株仍有刺激性。更一般地说,我们表明抗性基因改变了按蚊的行为,增加或降低了避蚊胺和天然化合物的有效性,这取决于突变。这些发现为驱避化合物的靶标和作用机制的研究提供了一个新的途径。我们在蚊虫控制策略的背景下讨论了这些发现。
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