Alpha-mannosidase-2 modulates arbovirus infection in a pathogen- and Wolbachia-specific manner in Aedes aegypti mosquitoes

IF 2.3 2区 农林科学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Nadya Urakova, Renuka E. Joseph, Allyn Huntsinger, Vanessa M. Macias, Matthew J. Jones, Leah T. Sigle, Ming Li, Omar S. Akbari, Zhiyong Xi, Konstantinos Lymperopoulos, Richard T. Sayre, Elizabeth A. McGraw, Jason L. Rasgon
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引用次数: 0

Abstract

Multiple Wolbachia strains can block pathogen infection, replication and/or transmission in Aedes aegypti mosquitoes under both laboratory and field conditions. However, Wolbachia effects on pathogens can be highly variable across systems and the factors governing this variability are not well understood. It is increasingly clear that the mosquito host is not a passive player in which Wolbachia governs pathogen transmission phenotypes; rather, the genetics of the host can significantly modulate Wolbachia-mediated pathogen blocking. Specifically, previous work linked variation in Wolbachia pathogen blocking to polymorphisms in the mosquito alpha-mannosidase-2 (αMan2) gene. Here we use CRISPR-Cas9 mutagenesis to functionally test this association. We developed αMan2 knockouts and examined effects on both Wolbachia and virus levels, using dengue virus (DENV; Flaviviridae) and Mayaro virus (MAYV; Togaviridae). Wolbachia titres were significantly elevated in αMan2 knockout (KO) mosquitoes, but there were complex interactions with virus infection and replication. In Wolbachia-uninfected mosquitoes, the αMan2 KO mutation was associated with decreased DENV titres, but in a Wolbachia-infected background, the αMan2 KO mutation significantly increased virus titres. In contrast, the αMan2 KO mutation significantly increased MAYV replication in Wolbachia-uninfected mosquitoes and did not affect Wolbachia-mediated virus blocking. These results demonstrate that αMan2 modulates arbovirus infection in A. aegypti mosquitoes in a pathogen- and Wolbachia-specific manner, and that Wolbachia-mediated pathogen blocking is a complex phenotype dependent on the mosquito host genotype and the pathogen. These results have a significant impact for the design and use of Wolbachia-based strategies to control vector-borne pathogens.

Abstract Image

Abstract Image

α-甘露糖苷酶-2以病原体和沃尔巴奇特异性方式调节埃及伊蚊的虫媒病毒感染。
在实验室和野外条件下,多种沃尔巴克氏菌菌株可阻止埃及伊蚊的病原体感染、复制和/或传播。然而,沃尔巴克氏菌对病原体的影响在不同的系统中会有很大的差异,而影响这种差异的因素还不十分清楚。越来越清楚的是,蚊子宿主并不是沃尔巴克氏体控制病原体传播表型的被动参与者;相反,宿主的遗传学可以显著调节沃尔巴克氏体介导的病原体阻断。具体来说,以前的工作将狼杆菌病原体阻断的变异与蚊子α-甘露糖苷酶-2(αMan2)基因的多态性联系起来。在这里,我们使用 CRISPR-Cas9 诱变技术对这种关联进行功能测试。我们利用登革病毒(DENV;Flaviviridae)和马雅罗病毒(MAYV;Togaviridae)构建了αMan2基因敲除模型,并检测了其对沃尔巴克氏体和病毒水平的影响。αMan2基因敲除(KO)蚊子的沃尔巴克氏体滴度明显升高,但与病毒感染和复制之间存在复杂的相互作用。在未感染沃尔巴克氏体的蚊子中,αMan2 KO 突变与 DENV 滴度下降有关,但在感染沃尔巴克氏体的背景中,αMan2 KO 突变会显著提高病毒滴度。与此相反,αMan2 KO突变在未感染狼毒的蚊子中明显增加了MAYV的复制,并且不影响狼毒介导的病毒阻断。这些结果表明,αMan2 以病原体和沃尔巴克氏体特异性的方式调节埃及喙蚊的虫媒病毒感染,而沃尔巴克氏体介导的病原体阻断是一种复杂的表型,取决于蚊子宿主的基因型和病原体。这些结果对设计和使用基于沃尔巴克氏菌的策略来控制病媒传播的病原体具有重要影响。
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来源期刊
Insect Molecular Biology
Insect Molecular Biology 生物-昆虫学
CiteScore
4.80
自引率
3.80%
发文量
68
审稿时长
6-12 weeks
期刊介绍: Insect Molecular Biology has been dedicated to providing researchers with the opportunity to publish high quality original research on topics broadly related to insect molecular biology since 1992. IMB is particularly interested in publishing research in insect genomics/genes and proteomics/proteins. This includes research related to: • insect gene structure • control of gene expression • localisation and function/activity of proteins • interactions of proteins and ligands/substrates • effect of mutations on gene/protein function • evolution of insect genes/genomes, especially where principles relevant to insects in general are established • molecular population genetics where data are used to identify genes (or regions of genomes) involved in specific adaptations • gene mapping using molecular tools • molecular interactions of insects with microorganisms including Wolbachia, symbionts and viruses or other pathogens transmitted by insects Papers can include large data sets e.g.from micro-array or proteomic experiments or analyses of genome sequences done in silico (subject to the data being placed in the context of hypothesis testing).
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