Knockdown resistance mutations are common and widely distributed in Xenopsylla cheopis fleas that transmit plague in Madagascar.

IF 3.8 2区 医学 Q1 Medicine
PLoS Neglected Tropical Diseases Pub Date : 2023-08-22 eCollection Date: 2023-08-01 DOI:10.1371/journal.pntd.0011401
Shelby M Hutton, Adelaide Miarinjara, Nathan E Stone, Fara N Raharimalala, Annick O Raveloson, Ravo Rakotobe Harimanana, Mireille Harimalala, Soanandrasana Rahelinirina, Ryelan F McDonough, Abbe D Ames, Crystal Hepp, Minoarisoa Rajerison, Joseph D Busch, David M Wagner, Romain Girod
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引用次数: 0

Abstract

Background: Plague, caused by the bacterium Yersinia pestis, remains an important disease in Madagascar, where the oriental rat flea, Xenopsylla cheopis, is a primary vector. To control fleas, synthetic pyrethroids (SPs) have been used for >20 years, resulting in resistance in many X. cheopis populations. The most common mechanisms of SP resistance are target site mutations in the voltage-gated sodium channel (VGSC) gene.

Methodology/principal findings: We obtained 25 collections of X. cheopis from 22 locations across Madagascar and performed phenotypic tests to determine resistance to deltamethrin, permethrin, and/or dichlorodiphenyltrichloroethane (DDT). Most populations were resistant to all these insecticides. We sequenced a 535 bp segment of the VGSC gene and identified two different mutations encoding distinct substitutions at amino acid position 1014, which is associated with knockdown resistance (kdr) to SPs in insects. Kdr mutation L1014F occurred in all 25 collections; a rarer mutation, L1014H, was found in 12 collections. There was a significant positive relationship between the frequency of kdr alleles and the proportion of individuals surviving exposure to deltamethrin. Phylogenetic comparisons of 12 VGSC alleles in Madagascar suggested resistant alleles arose from susceptible lineages at least three times. Because genotype can reasonably predict resistance phenotype, we developed a TaqMan PCR assay for the rapid detection of kdr resistance alleles.

Conclusions/significance: Our study provides new insights into VGSC mutations in Malagasy populations of X. cheopis and is the first to report a positive correlation between VGSC genotypes and SP resistance phenotypes in fleas. Widespread occurrence of these two SP resistance mutations in X. cheopis populations in Madagascar reduces the viability of these insecticides for flea control. However, the TaqMan assay described here facilitates rapid detection of kdr mutations to inform when use of these insecticides is still warranted to reduce transmission of plague.

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敲除抗性突变在马达加斯加传播瘟疫的切皮Xenopsilla跳蚤中很常见,分布广泛。
背景:鼠疫是由鼠疫耶尔森菌引起的,在马达加斯加仍然是一种重要的疾病,东方鼠蚤切皮Xenopsylla cheopis是主要媒介。为了控制跳蚤,合成拟除虫菊酯类药物(SP)已经使用了20多年,在许多雪蚊种群中产生了耐药性。SP抗性最常见的机制是电压门控钠通道(VGSC)基因的靶位点突变。方法学/主要发现:我们从马达加斯加22个地点收集了25份黑蝶,并进行了表型测试,以确定对溴氰菊酯、氯氰菊酯和/或二氯二苯三氯乙烷(DDT)的抗性。大多数种群对所有这些杀虫剂都有抗性。我们对VGSC基因的535bp片段进行了测序,并鉴定了两个不同的突变,编码1014位氨基酸的不同取代,这与昆虫对SP的敲低抗性(kdr)有关。Kdr突变L1014F发生在所有25个集合中;在12个样本中发现了一个罕见的突变L1014H。kdr等位基因的频率与溴氰菊酯暴露后存活的个体比例之间存在显著的正相关。马达加斯加12个VGSC等位基因的系统发育比较表明,抗性等位基因至少三次来自易感谱系。由于基因型可以合理地预测抗性表型,我们开发了一种用于快速检测kdr抗性等位基因的TaqMan PCR方法。结论/意义:我们的研究为马达加斯加雪貂种群的VGSC突变提供了新的见解,并首次报道了VGSC基因型与跳蚤SP抗性表型之间的正相关性。这两种SP抗性突变在马达加斯加的X.cheopis种群中广泛发生,降低了这些杀虫剂控制跳蚤的可行性。然而,这里描述的TaqMan测定有助于快速检测kdr突变,以告知何时仍有必要使用这些杀虫剂来减少瘟疫的传播。
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来源期刊
PLoS Neglected Tropical Diseases
PLoS Neglected Tropical Diseases Medicine-Infectious Diseases
CiteScore
7.40
自引率
10.50%
发文量
723
审稿时长
2-3 weeks
期刊介绍: PLOS Neglected Tropical Diseases publishes research devoted to the pathology, epidemiology, prevention, treatment and control of the neglected tropical diseases (NTDs), as well as relevant public policy. The NTDs are defined as a group of poverty-promoting chronic infectious diseases, which primarily occur in rural areas and poor urban areas of low-income and middle-income countries. Their impact on child health and development, pregnancy, and worker productivity, as well as their stigmatizing features limit economic stability. All aspects of these diseases are considered, including: Pathogenesis Clinical features Pharmacology and treatment Diagnosis Epidemiology Vector biology Vaccinology and prevention Demographic, ecological and social determinants Public health and policy aspects (including cost-effectiveness analyses).
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