<p>Renal interstitial fibrosis (RIF), the central pathological driver of chronic kidney disease (CKD) progression, remains mechanistically incompletely defined. While long non-coding RNAs (lncRNAs) are emerging as critical regulators of CKD, their roles in RIF pathogenesis are poorly understood. Here, we identify the fibrosis-associated lncRNA P4HA2-AS1 as a key modulator of RIF through integrated analyses of unilateral ureteral obstruction (UUO) mice and TGF-β-stimulated human renal tubular epithelial cells (HK-2), combined with RNA sequencing, RNA pull-down, ubiquitination profiling, and autophagic flux assays. P4HA2-AS1 was markedly upregulated in fibrotic kidneys, and its suppression attenuated fibrotic phenotypes in vivo and in vitro while restoring autophagic flux. Mechanistically, P4HA2-AS1 directly binds the E3 ubiquitin ligase TRIM32, impeding its proteasomal degradation. This stabilization enhances TRIM32-mediated K63-linked ubiquitination of ULK1, a master autophagy initiator, leading to aberrant autophagic activation and fibrotic progression. Our study uncovers a previously unrecognized P4HA2-AS1/TRIM32/ULK1 axis that couples dysregulated autophagy to RIF, proposing lncRNA-protein interaction targeting as a therapeutic strategy against renal fibrosis.</p><p></p>

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LncRNA P4HA2-AS1 drives renal interstitial fibrosis via trim32-mediated k63 ubiquitination of ULK1 and autophagic dysregulation

  • Zhou Pan,
  • Fei Xiao,
  • Wei Hu,
  • Ting Liu,
  • Wenjing Shu,
  • Yan Leng,
  • Qingqing Yi,
  • Yan Zeng,
  • Fan Cheng,
  • Hengcheng Zhu,
  • Kang Yang

摘要

Renal interstitial fibrosis (RIF), the central pathological driver of chronic kidney disease (CKD) progression, remains mechanistically incompletely defined. While long non-coding RNAs (lncRNAs) are emerging as critical regulators of CKD, their roles in RIF pathogenesis are poorly understood. Here, we identify the fibrosis-associated lncRNA P4HA2-AS1 as a key modulator of RIF through integrated analyses of unilateral ureteral obstruction (UUO) mice and TGF-β-stimulated human renal tubular epithelial cells (HK-2), combined with RNA sequencing, RNA pull-down, ubiquitination profiling, and autophagic flux assays. P4HA2-AS1 was markedly upregulated in fibrotic kidneys, and its suppression attenuated fibrotic phenotypes in vivo and in vitro while restoring autophagic flux. Mechanistically, P4HA2-AS1 directly binds the E3 ubiquitin ligase TRIM32, impeding its proteasomal degradation. This stabilization enhances TRIM32-mediated K63-linked ubiquitination of ULK1, a master autophagy initiator, leading to aberrant autophagic activation and fibrotic progression. Our study uncovers a previously unrecognized P4HA2-AS1/TRIM32/ULK1 axis that couples dysregulated autophagy to RIF, proposing lncRNA-protein interaction targeting as a therapeutic strategy against renal fibrosis.