Translational Oncology (Nov 2024)

The role of deubiquitinase USP2 in driving bladder cancer progression by stabilizing EZH2 to epigenetically silence SOX1 expression

  • Fanghua Xu,
  • Xiangda Xu,
  • Huanhuan Deng,
  • Zhaojun Yu,
  • Jianbiao Huang,
  • Leihong Deng,
  • Haichao Chao

Journal volume & issue
Vol. 49
p. 102104

Abstract

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Background: The Ubiquitin-proteasome system (UPS) is known to participate in multiple cellular events. The deubiquitinating enzyme USP2 (ubiquitin-specific protease 2) is involved in the vasculature remodeling process associated with bladder cancer (BLCA). However, the role of USP2 in BLCA progression has not been clearly defined and whether its regulatory mechanism involving EZH2 (Enhancer of Zeste Homolog 2) remains elusive yet. Methods: Differential expression patterns of USP2 and EZH2 were examined in 46 pairs of BLCA and adjacent normal tissues. USP2 knockdown plasmids were transfected into 5637 and J82 cells to detect its impact on cell proliferation, migration and invasion using CCK-8, EdU, wound healing and transwell assays. The USP2-EZH2-SOX1 cascade was confirmed through Co-immunoprecipitation (Co-IP) and chromatin immunoprecipitation (ChIP) assays. An in vivo verification was conducted using a xenograft model of nude mice. Results: USP2 was significantly upregulated in BLCA tissues and cells, which was associated with poor clinical prognosis in BLCA patients. USP2 depletion resulted in decreased cell proliferation, migration and invasion in BLCA cells. USP2 stabilized the EZH2 protein by directly binding to it, thereby reducing its ubiquitination. Ectopic introduction of EZH2 restored cell growth and invasion of BLCA cells, which had been inhibited by USP2 silencing. USP2-mediated stabilization of EZH2 promoted the enrichment of histone H3K27me3 and repression of SOX1. Involvement of the USP2-EZH2-SOX1 axis in tumor formation was ultimately verified in vivo. Conclusion: Our findings reveal that a USP2-EZH2-SOX1 axis orchestrates the interplay between dysregulated USP2 and EZH2-mediated gene epigenetic silencing in BLCA progression.

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