A novel peptide encoded by circ‐SLC9A6 promotes lipid dyshomeostasis through the regulation of H4K16ac‐mediated CD36 transcription in NAFLD

Autor: Yue Wang, Xinyao Tian, Zhecheng Wang, Deshun Liu, Xuzi Zhao, Xin Sun, Zuoyu Tu, Zekuan Li, Yan Zhao, Shusen Zheng, Jihong Yao
Jazyk: angličtina
Rok vydání: 2024
Předmět:
Zdroj: Clinical and Translational Medicine, Vol 14, Iss 8, Pp n/a-n/a (2024)
Druh dokumentu: article
ISSN: 2001-1326
DOI: 10.1002/ctm2.1801
Popis: Abstract Background As the leading cause of end‐stage liver disease, nonalcoholic fatty liver disease (NAFLD) is mainly induced by lipid dyshomeostasis. The translation of endogenous circular RNAs (circRNAs) is closely related to the progression of various diseases, but the involvement of circRNAs in NAFLD has not been determined. Methods Combined high‐throughput circRNA profiles were used to identify circRNAs with translational potential. The underlying molecular mechanisms were investigated by RNA sequencing, pull‐down/MS and site‐specific mutagenesis. Results In this study, we focused on circ‐SLC9A6, an abnormally highly expressed circRNA in human and mouse liver tissue during NAFLD development that exacerbates metabolic dyshomeostasis in hepatocytes by encoding a novel peptide called SLC9A6‐126aa in vivo and in vitro. YTHDF2‐mediated degradation of m6A‐modified circ‐SLC9A6 was found to be essential for the regulation of SLC9A6‐126aa expression. We further found that the phosphorylation of SLC9A6‐126aa by AKT was crucial for its cytoplasmic localization and the maintenance of physiological homeostasis, whereas high‐fat stress induced substantial translocation of unphosphorylated SLC9A6‐126aa to the nucleus, resulting in a vicious cycle of lipid metabolic dysfunction. Nuclear SLC9A6‐126aa promotes transcriptional activation of the target gene CD36 and enhances its occupancy of the CD36 promoter locus by regulating MOF‐mediated histone H4K16 acetylation. Hepatic CD36 depletion significantly ameliorated hyperactivated MAPK signalling and lipid disturbance in SLC9A6‐126aa transgenic mice. Clinically, increasing levels of SLC9A6‐126aa were observed during NAFLD progression and were found to be positively correlated with the CD36 and MAPK cascades. Conclusion This study revealed the role of circ‐SLC9A6‐derived SLC9A6‐126aa in the epigenetic modification‐mediated regulation of lipid metabolism. Our findings may provide promising therapeutic targets for NAFLD and new insights into the pathological mechanisms of metabolic diseases. Highlights Under normal circumstances, driven by m6A modification, YTHDF2 directly recognizes and degrades circ‐SLC9A6, thereby inhibiting the translation of SLC9A6‐126aa. Additionally, AKT1 phosphorylates and inhibits the nuclear translocation of SLC9A6‐126aa. In NAFLD, lipid overload leads to YTHDF2 and AKT1 deficiency, ultimately increasing the expression and nuclear import of SLC9A6‐126aa. Nuclear SLC9A6‐126aa binds directly to the CD36 promoter and initiates CD36 transcription, which induces lipid dyshomeostasis.
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