microRNA-22 displaces ITAFs from the 5’UTR and inhibit the translation of Coxsackievirus B3 RNA

Abstract

ABSTRACTmicroRNAs play an essential role in gene regulation during virus infections and have major consequences on viral pathogenesis. During RNA virus infections, the host miRNAs can target both host mRNAs and the virus genomic RNA. Using the CVB3 virus as a model, we have investigated how a host miRNA can target viral genomic RNA and act as an antiviral factor limiting the growth of the virus. CVB3 is an RNA virus whose infection causes myocarditis and, eventually, dilated cardiomyopathy. We shortlisted miRNAs with a potential binding site in the CVB3 genomic RNA. Among these, miR-22 was picked for further studies as its binding site was putatively located in a region in the CVB3 5’ UTR, important for recruiting ITAFs and ribosomes for IRES-mediated translation. Using mutational analysis and pull-down assays, we first confirmed the binding of miR-22 on the 5’UTR. This binding negatively regulated the translation of CVB3 RNA. However, miR-22 binding-defective mutant of CVB3 RNA had no effect of miR-22 overexpression and could translate normally. Moreover, cells from which miR-22 was knocked out, showed a higher level of CVB3 infection as compared to the wild type. We have further demonstrated that the binding of miR-22 interferes with the recruitment of several ITAFs (La, PSF, and PTB) on viral mRNA. This abrogates the spatial structure necessary for ribosome recruitment on the CVB3 RNA, ultimately inhibiting its translation. Also, the level of miR-22 increases 4 hours post-infection, presumably after the synthesis of viral 2A protease, to regulate infection in the host cell more effectively. Along with the direct effect on viral RNA, the altered level of miR-22 affects the level of its cellular targets which might contribute to CVB3 infection. To identify the possible players, we obtained a list of miR-22 targets and performed pathway analysis. Several targets were shortlisted among the top hits and their levels upon CVB3 infection were checked. Protocadherin-1 (PCDH-1), a single-pass transmembrane protein, followed an expected trend, and its levels were significantly downregulated upon CVB3 infection in miR-22 dependent manner. miR-22 mediated suppression of PCDH1 levels during CVB3 infection points towards the possible role of miR-22 in either modulating antiviral signaling or in virus entry, in addition to regulating the viral translation.