TRIM25-Mediated INSIG1 Ubiquitination Promotes MASH Progression Through Reprogramming Lipid Metabolism.

The global incidence of Metabolic dysfunction-associated steatohepatitis (MASH) is increasing, highlighting the urgent need for new treatment strategies. This study aimed to investigate the involvement of tripartite motif-containing 25 (TRIM25) in MASH progression and explore the therapeutic potential of the TRIM25 inhibitor, C(27)H(26)N(2)O(4)S. Functional studies reveal that TRIM25 promoted lipid accumulation and inflammation by ubiquitinating and degrading insulin-induced gene 1 (INSIG1), thereby enhancing the nuclear translocation of sterol regulatory element-binding protein 2 (SREBP2) and upregulating lipid biosynthesis genes. In vivo experiments using TRIM25 knockout mice demonstrated that TRIM25 deletion ameliorated MASH progression, reduced fibrosis, and decreased inflammatory cell infiltration. It identifies C(27)H(26)N(2)O(4)S as a specific inhibitor of TRIM25. C(27)H(26)N(2)O(4)S effectively decreased INSIG1 ubiquitination and attenuated lipid accumulation in the hepatocytes. To enhance the hepatic delivery of C(27)H(26)N(2)O(4)S, it utilizes exosomes derived from hepatic stellate cells (HSC-EVs). Biodistribution analysis confirmed that the HSC-EVs preferentially accumulated in the liver. In a MASH mouse model, HSC-EV-encapsulated C(27)H(26)N(2)O(4)S (C(27)H(26)N(2)O(4)S@HSC-EV) significantly reduced hepatic lipid accumulation and alleviated MASH severity and fibrosis. This study highlights the critical regulatory role of TRIM25 in MASH and presents C(27)H(26)N(2)O(4)S@HSC-EV as a promising therapeutic approach for MASH treatment.