1. Control of RNA viruses in mosquito cells through the acquisition of vDNA and endogenous viral elements.
- Author
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Tassetto, Michel, Kunitomi, Mark, Whitfield, Zachary J, Dolan, Patrick T, Sánchez-Vargas, Irma, Garcia-Knight, Miguel, Ribiero, Isabel, Chen, Taotao, Olson, Ken E, and Andino, Raul
- Subjects
Animals ,Aedes ,RNA Viruses ,Drosophila Proteins ,RNA ,Small Interfering ,DNA ,Complementary ,DNA ,Viral ,Immunity ,Innate ,Argonaute Proteins ,RNA viruses ,adaptive immunity ,endogenous retroviruses ,immunology ,infectious disease ,inflammation ,microbiology ,mosquito vector ,self-nonself discrimination ,tolerance to infection ,virus ,Biochemistry and Cell Biology - Abstract
Aedes aegypti transmit pathogenic arboviruses while the mosquito itself tolerates the infection. We examine a piRNA-based immunity that relies on the acquisition of viral derived cDNA (vDNA) and how this pathway discriminates between self and non-self. The piRNAs derived from these vDNAs are essential for virus control and Piwi4 has a central role in the pathway. Piwi4 binds preferentially to virus-derived piRNAs but not to transposon-targeting piRNAs. Analysis of episomal vDNA from infected cells reveals that vDNA molecules are acquired through a discriminatory process of reverse-transcription and recombination directed by endogenous retrotransposons. Using a high-resolution Ae. aegypti genomic sequence, we found that vDNAs integrated in the host genome as endogenous viral elements (EVEs), produce antisense piRNAs that are preferentially loaded onto Piwi4. Importantly, EVE-derived piRNAs are specifically loaded onto Piwi4 to inhibit virus replication. Thus, Ae. aegypti employs a sophisticated antiviral mechanism that promotes viral persistence and generates long-lasting adaptive immunity. more...
- Published
- 2019