RBFOX2 is Critical for Maintaining Alternative Polyadenylation Patterns and Mitochondrial Health in Rat Myoblasts

Abstract

SUMMARYRBFOX2, which has a well-established role in alternative splicing, is linked to heart diseases. However, it is unclear whether RBFOX2 has other roles in RNA processing that can influence gene expression/function in muscle cells, contributing to disease pathology. Here, we employed both 3’-end and nanopore cDNA sequencing to reveal a previously unrecognized role for RBFOX2 in maintaining alternative polyadenylation (APA) signatures in myoblasts. We found that RBFOX2-mediated APA modulates both mRNA levels and isoform expression of a collection of genes including contractile and mitochondrial genes. We identified the key muscle-specific contractile gene, Tropomyosin 1 and essential mitochondrial gene, Slc25a4 as APA targets of RBFOX2. Unexpectedly, depletion of RBFOX2 adversely affected mitochondrial health in myoblasts that is in part mediated by disrupted APA of mitochondrial gene Slc25a4. Mechanistically, we found that RBFOX2 regulation of Slc25a4 APA is mediated through consensus RBFOX2 binding motifs near the distal polyadenylation site enforcing the use of the proximal polyadenylation site. In sum, our results unveiled a new role for RBFOX2 in fine tuning expression levels of mitochondrial and contractile genes via APA in myoblasts relevant to heart diseases.