Population genetic analysis of Aedes aegypti reveals evidence of emerging admixture populations in coastal Kenya.

IF 3.4 2区医学 Q1 PARASITOLOGY

PLoS Neglected Tropical Diseases Pub Date : 2025-05-20 eCollection Date: 2025-05-01 DOI:10.1371/journal.pntd.0013041

Francis Mulwa, Dario Balcazar, Solomon Langat, James Mutisya, Betty Chelangat, Carolyn S McBride, Noah Rose, Jeffrey Powell, Rosemary Sang, Armanda Bastos, Andrea Gloria-Soria, Joel Lutomiah

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Abstract

Background: The Aedes aegypti mosquito is widespread in tropical and subtropical regions. There are two recognized subspecies; the invasive Aedes aegypti aegypti (Aaa) and the ancestral Aedes aegypti formosus (Aaf). Aaf is common throughout Kenya whereas Aaa, which was historically confined to coastal regions, has undergone a range expansion. In areas of sympatry, gene flow may lead to admixed populations with potential differences in vectorial capacity. We hypothesize that coastal Ae. aegypti populations have a higher proportion of Aaa ancestry than those from inland locations of Kenya, influenced by their distance to the coast.

Methodology: Adult Ae. aegypti mosquitoes were collected using Biogent (BG) sentinel traps baited with carbon-dioxide (CO2) from cities and towns along the Kenyan northern transport corridor. Aedes aegypti population structure, genetic diversity, and isolation by distance were analyzed using genome-wide single nucleotide polymorphism (SNPs) datasets generated with an Ae. aegypti microarray chip targeting ≈50,000 SNPs. Kenyan Aedes aegypti populations were placed into a global context within a phylogenetic tree, by combining the Kenyan dataset with a previously published global database.

Results: A total of 67 Ae. aegypti mosquitoes population from Kenya were genotyped, we found that western Kenya Ae. aegypti constitute a genetically homogenous population that clusters with African Aaf, whereas coastal mosquitoes showed evidence of admixture between the two subspecies. There was a positive correlation (Observation = 0.869, p = 0.0023) between genetic distance (FST) and geographic distance, suggesting isolation by distance. The phylogenetic analysis and the genetic structure analysis suggest that an Asian Aaa population is the source of Aaa invasion into Kenya.

Conclusions: These results provide evidence of an emerging admixed population of Ae. aegypti in coastal Kenya between the sylvatic Aaf and the domesticated-human preferring Aaa. The observed gene flow from Aaa into Kenya may positively influence Ae. aegypti vectorial capacity, potentially increasing human feeding preference, biting rates and vector competence and could be promoting the observed dengue and chikungunya outbreaks.

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埃及伊蚊种群遗传分析揭示了肯尼亚沿海地区出现混合种群的证据。

背景：埃及伊蚊广泛分布于热带和亚热带地区。有两个公认的亚种；入侵型埃及伊蚊（Aaa）和祖先型埃及伊蚊（Aaf）。Aaf在肯尼亚各地都很常见，而Aaa，历史上仅限于沿海地区，经历了范围扩大。在同属区域，基因流动可能导致具有潜在媒介能力差异的混合种群。我们假设沿海Ae。受离海岸距离的影响，埃及伊蚊种群中Aaa血统的比例高于来自肯尼亚内陆地区的种群。方法：成蚊；在肯尼亚北部交通走廊沿线的城镇使用biogen （BG）哨兵诱捕器收集埃及伊蚊。利用全基因组单核苷酸多态性（snp）对埃及伊蚊种群结构、遗传多样性和距离分离进行了分析。埃及伊蚊微阵列芯片靶向≈50,000个snp。通过将肯尼亚数据集与先前发表的全球数据库数据库相结合，将肯尼亚埃及伊蚊种群置于系统发育树的全球背景下。结果：共有67个Ae。对来自肯尼亚的埃及伊蚊种群进行了基因分型，发现肯尼亚西部的埃及伊蚊；埃及伊蚊构成了与非洲Aaf聚集在一起的遗传同质种群，而沿海蚊子则显示出两个亚种之间混合的证据。遗传距离（FST）与地理距离呈正相关（观察值= 0.869,p = 0.0023），表明是由距离分离的。系统发育分析和遗传结构分析表明，亚洲Aaa种群是Aaa入侵肯尼亚的来源。结论：这些结果为伊蚊出现混合种群提供了证据。肯尼亚沿海地区的埃及伊蚊分布在森林型Aaf和驯化型人类偏好的Aaa之间。埃及伊蚊媒介能力，可能增加人类的捕食偏好、叮咬率和媒介能力，并可能促进已观察到的登革热和基孔肯雅热暴发。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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PLoS Neglected Tropical Diseases PARASITOLOGY-TROPICAL MEDICINE

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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).