N-Terminal deleted isoforms of E3 ligase RNF220 are ubiquitously expressed and required for mouse muscle differentiation

IF 6.5 3区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Molecules and Cells Pub Date : 2025-07-01 DOI:10.1016/j.mocell.2025.100250

SeokGyeong Choi , Sojung Ha , Donald J. Wolfgeher , Jee Won Kim , Young-Hyun Go , Hyuk-Jin Cha , Gyu-Un Bae , Stephen J. Kron , Woo-Young Kim

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Abstract

Four isoform peptides of the novel E3 ligase ring finger protein 220 (RNF220) have been identified in humans. However, all of the previous studies have predominantly focused on isoform 1 (the full-length form), which consists of 566 amino acids. Here, we show that a shorter isoform, which is 308 amino acids lacking most of the N-terminus (human isoform 4; mouse isoform 3; ΔN-RNF220), is the predominant and ubiquitously expressed variant that warrants functional investigation. Both isoform 1 and ΔN-RNF220 are expressed in the brain; however, ΔN-RNF220 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 ΔN-RNF220 demonstrates broader and stronger activity across human tissues than that of isoform 1. ΔN-RNF220 produces 2 peptides (4a and 4b) through alternative translation initiation, with isoform 4b displaying distinct subcellular localization, subnuclear structures and interaction with a nuclear protein WDR5. Notably, during embryonic stem cell differentiation into neural stem cells, isoform 1 expression increases, whereas ΔN-RNF220 expression decreases. In murine myoblasts, ΔN-RNF220 is the sole expressed isoform and is required for MyoD and myogenin expression, as well as for muscle differentiation. Our findings highlight ΔN-RNF220 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 ΔN-RNF220 in future studies investigating the biological functions of RNF220.

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E3连接酶RNF220 n端缺失异构体普遍表达，是小鼠肌肉分化所必需的。

新型E3连接酶RNF220的四种异构体肽已在人类中被鉴定出来。然而，所有先前的研究主要集中在异构体1（全长形式）上，它由566个氨基酸（aa）组成。在这里，我们展示了一个更短的异构体，它是308 aa，缺乏大部分的n端(人类异构体4；小鼠亚型3；ΔN-RNF220)，是主要的和普遍表达的变体，值得功能性研究。同种异构体1和ΔN-RNF220都在大脑中表达；然而，ΔN-RNF220是小鼠所有其他组织中表达的主要亚型。同样，ENCODE的H3K4me3 ChIP-seq数据显示，ΔN-RNF220的转录起始位点在人体组织中的活性比同种异构体1更广泛、更强。ΔN-RNF220通过替代翻译起始产生两种肽（4a和4b），其中4b异构体显示不同的亚细胞定位、亚核结构并与核蛋白WDR5相互作用。值得注意的是，在胚胎干细胞向神经干细胞分化的过程中，isoform 1表达增加，而ΔN-RNF220表达减少。在小鼠成肌细胞中，ΔN-RNF220是唯一表达的同种异构体，是MyoD和肌原素表达以及肌肉分化所必需的。我们的研究结果强调ΔN-RNF220是普遍存在的高表达变体，可能在组织中发挥基本作用，同时表现出与异构体1的功能差异。这些结果强调了ΔN-RNF220在未来研究RNF220生物学功能的关键重要性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Molecules and Cells 生物-生化与分子生物学

CiteScore

6.60

自引率

10.50%

发文量

审稿时长

2.3 months

期刊介绍： Molecules and Cells is an international on-line open-access journal devoted to the advancement and dissemination of fundamental knowledge in molecular and cellular biology. It was launched in 1990 and ISO abbreviation is "Mol. Cells". Reports on a broad range of topics of general interest to molecular and cell biologists are published. It is published on the last day of each month by the Korean Society for Molecular and Cellular Biology.