Epigenetic H3K4me3 activation of miR-155-5p promotes intervertebral disc degeneration via autophagy and ageing in nucleus pulposus cells.
Ximeng Wang, Hanqiu Sun, Wenbiao Xiao, Yuxuan Zhang, Xiao Lu, Zhaoyang Gong, Dachuan Li, Siyang Liu, Xinlei Xia, Hongli Wang, Minghao Shao, Guangyu Xu, Xiaosheng Ma
Abstract
Open AccessNucleus pulposus (NP) cell ageing and impaired autophagy - lysosome biogenesis (ALB) are key drivers of intervertebral disc degeneration (IVDD). The upstream epigenetic regulation of transcription factor EB (TFEB), a major ALB regulator, remains elusive. Our study identifies a H3K4me3-associated miRNA pathway that modulates TFEB activity and IVDD progression. Using in vivo and in vitro models, we found that methyltransferase MLL3 knockdown reduces H3K4me3 methylation at the miR-155-5p promoter, suppressing miR-155-5p transcription. MiR-155-5p directly targets FBXO22, indirectly repressing TFEB transcription and exacerbating NP cells ageing and IVDD. Notably, experiments confirmed MLL3 binds specifically to the miR-155-5p promoter, with no interaction detected at the TFEB or FBXO22 promoters. Our data establish a linear H3K4me3/miR-155-5p/FBXO22/TFEB axis in IVDD pathogenesis. We reveal a novel epigenetic crosstalk where H3K4me3 methylation mediates miRNA-driven TFEB regulation, independent of canonical mTOR signaling. These findings enhance understanding of epigenetic mechanisms in autophagy and ageing control and highlight MLL3 and miR-155-5p as potential IVDD therapeutic targets.