Musa Ibrahim, Seabright Alex Peter, Barlow Jonathan, Nishimura Yusuke
School of Sport, Exercise and Rehabilitation Sciences, University of Birmingham, UK.
Department of Human Physiology, Faculty of Basic Medical Sciences, College of Health Sciences, Prince Abubakar Audu University, Anyigba, Nigeria.
FASEB J. 2025 Oct 15;39(19):e71084. doi: 10.1096/fj.202502066RR.
Muscle RING-finger protein 1 (MuRF1, gene name: TRIM63) is well known as a critical molecular regulator in skeletal muscle atrophy. Despite the identification of several substrates and interaction partners for MuRF1, the precise molecular mechanisms by which MuRF1 causes skeletal muscle atrophy remain unclear. To gain further insight into the underlying mechanism of skeletal muscle atrophy, we applied targeted biochemical approaches and identified tripartite motif-containing protein 72 (TRIM72) as a novel MuRF1-interacting protein. Subsequent analysis using MuRF1 knockout and rescue experiments showed that TRIM72 protein abundance is dependent on the presence of MuRF1 protein. Furthermore, TRIM72 protein level was increased by dexamethasone treatment in C2C12 myotubes, alongside increased MuRF1 protein level. Dexamethasone decreases IRS1/Akt signaling and glucose uptake specifically in wild type myotubes, but not in MuRF1 KO myotubes. Further analysis showed that overexpression of TRIM72 impairs IRS1/Akt signaling without the presence of MuRF1, indicating that MuRF1 induces a negative impact on insulin signaling through a plausible cooperation with TRIM72. Our findings provide novel non-degradative molecular roles of MuRF1 that link together skeletal muscle atrophy and impaired insulin sensitivity.
肌肉环状指蛋白1(MuRF1,基因名称:TRIM63)是骨骼肌萎缩中一种关键的分子调节因子,这一点广为人知。尽管已经确定了MuRF1的几种底物和相互作用伙伴,但MuRF1导致骨骼肌萎缩的确切分子机制仍不清楚。为了进一步深入了解骨骼肌萎缩的潜在机制,我们采用了靶向生化方法,并鉴定出含三联基序蛋白72(TRIM72)是一种新的与MuRF1相互作用的蛋白。随后使用MuRF1基因敲除和挽救实验进行的分析表明,TRIM72蛋白丰度依赖于MuRF1蛋白的存在。此外,在C2C12肌管中,地塞米松处理可使TRIM72蛋白水平升高,同时MuRF1蛋白水平也升高。地塞米松特异性降低野生型肌管中的IRS1/Akt信号传导和葡萄糖摄取,但在MuRF1基因敲除肌管中则不然。进一步分析表明,在没有MuRF1的情况下,TRIM72的过表达会损害IRS1/Akt信号传导,这表明MuRF1通过与TRIM72的合理合作对胰岛素信号传导产生负面影响。我们的研究结果揭示了MuRF1新的非降解性分子作用,将骨骼肌萎缩和胰岛素敏感性受损联系在一起。
