Autor(es): Sim, Shuzhen; Jupatanakul, Natapong; Ramirez, Jose L; Kang, Seokyoung; Romero-Vivas, Claudia M; Mohammed, Hamish; Dimopoulos, George

Resumo: Genetic variation among Aedes aegypti populations can greatly influence their vector competence for human pathogens such as the dengue virus (DENV). While intra-species transcriptome differences remain relatively unstudied when compared to coding sequence polymorphisms, they also affect numerous aspects of mosquito biology. Comparative molecular profiling of mosquito strain transcriptomes can therefore provide valuable insight into the regulation of vector competence. We established a panel of A. aegypti strains with varying levels of susceptibility to DENV, comprising both laboratory-maintained strains and field-derived colonies collected from geographically distinct dengue-endemic regions spanning South America, the Caribbean, and Southeast Asia. A comparative genome-wide gene expression microarray-based analysis revealed higher basal levels of numerous immunity-related gene transcripts in DENV-refractory mosquito strains than in susceptible strains, and RNA interference assays further showed different degrees of immune pathway contribution to refractoriness in different strains. By correlating transcript abundance patterns with DENV susceptibility across our panel, we also identified new candidate modulators of DENV infection in the mosquito, and we provide functional evidence for two potential DENV host factors and one potential restriction factor. Our comparative transcriptome dataset thus not only provides valuable information about immune gene regulation and usage in natural refractoriness of mosquito populations to dengue virus but also allows us to identify new molecular interactions between the virus and its mosquito vector. Genetic variations among Aedes aegypti mosquito populations can greatly influence their ability to transmit human pathogens such as the dengue virus (DENV). Some of these variations between mosquito populations are represented by differences in the expression of specific genes that control susceptibility to a pathogen. We have compared susceptibilities to dengue virus infection and the genome-wide gene expression patterns between laboratory-maintained Aedes aegypti strains as well as field-derived colonies collected from geographically-distinct dengue-endemic regions spanning South America, the Caribbean, and Southeast Asia. These analyses in conjunction with functional gene silencing assays showed that the basal immune activity is a likely determinant of resistance to the dengue virus, along with other novel factors. Our study also identified two potential DENV host factors and one potential restriction factor, thereby elucidating novel aspects of dengue virus - mosquito interactions.

Palavras-Chave: Population genetics; Human diseases; Pest control; Pathogens; Hosts; Strains; Aquatic insects; Disease transmission; Public health; Abundance; Genetic diversity; Disease resistance; Infection; DNA microarrays; Gene expression; Colonies; Dengue; Gene regulation; RNA-mediated interference; Immune response; Gene silencing; Dengue virus; Aedes aegypti

Imprenta: Plos Neglected Tropical Diseases, v. 7, n. 7, 2013.

Descritores: Aedes aegypti - DNA ; Aedes aegypti - Immune response ; Aedes aegypti - RNA ; Aedes aegypti - Virus ; Aedes aegypti - Transmission ; Aedes aegypti - Dengue ; Aedes aegypti - Immunology ; Aedes aegypti - Public health

Data de Publicação: 2013