Abstract

Actin-related protein 5 (ARP5) inhibits the differentiation of skeletal, smooth, and cardiac muscle tissues, and ARP5 expression increases or decreases according to physiological and pathological changes in the muscle differentiation status. However, the regulatory mechanisms of ARP5 expression are largely unknown. Here, we identified a novel Arp5 mRNA isoform that contains premature termination codons in alternative exon 7b and is thus targeted by nonsense-mediated mRNA decay (NMD). In mouse skeletal muscle cells, switching from the canonical Arp5 isoform, i.e., Arp5(7a), to the NMD-targeted isoform Arp5(7b) occurred during differentiation, suggesting that Arp5 expression is regulated by alternative splicing coupled to NMD (AS-NMD). We developed an original method to accurately quantify the proportion of both Arp5 isoforms and measured higher levels of Arp5(7b) in muscle and brain tissues, where ARP5 is less expressed. The 3′ splice site in Arp5 exon 7 has an unusual acceptor sequence that often leads to the skip of the authentic splice site and the use of the cryptic splice site localized 16 bases downstream. When the unusual acceptor sequence was mutated to the usual one, the Arp5(7b) isoform was barely detectable. The expression of several splicing factors involved in 3′ splice site recognition was reduced after muscle differentiation. Additionally, knockdown of splicing factors increased the levels of Arp5(7b) and decreased the expression of Arp5(7a). Furthermore, strong positive correlations were found between Arp5 expression and the levels of these splicing factors in human skeletal and cardiac muscle tissues. Thus, Arp5 expression in muscle tissues is most likely regulated by the AS-NMD pathway.

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