N-Terminal Deleted Isoforms of E3 Ligase RNF220 (Isoform 4) Are Ubiquitously Expressed and Required for Mouse Muscle Differentiation

Four isoform peptides of the novel E3 ligase RNF220 have been identified in humans. However, all of previous studies have predominantly focused on isoform 1, which consists of 566 amino acids (aa). Here, we show that a shorter isoform, isoform 4 (308 aa), lacking most of the N-terminus, is the predominant and ubiquitously expressed variant that warrants functional investigation. Both isoform 1 and isoform 4 are expressed in the brain; however, isoform 4 is the major isoform expressed in all other tissues in mice. Consistently, H3K4me3 ChIP-seq data from ENCODE reveal that the transcription start site for isoform 4 demonstrates broader and stronger activity across human tissues than that of isoform 1. Isoform 4 produces two peptides (4a and 4b) through alternative translation initiation, with isoform 4b displaying distinct subcellular localization and subnuclear structures. Notably, during embryonic stem cell differentiation into neural stem cells, isoform 1 expression increases, whereas isoform 4 expression decreases. In murine myoblasts, isoform 4 is the sole expressed isoform and is required for MyoD and myogenin expression, as well as for muscle differentiation. Our findings highlight isoform 4 as the ubiquitously and highly expressed variant, likely playing a fundamental role across tissues while exhibiting functional differences from isoform 1. These results emphasize the critical importance of isoform 4 in future studies investigating the biological functions of RNF220.