<p>The paper (<a href="https://doi.org/10.1038/s41388-025-03410-3">https://doi.org/10.1038/s41388-025-03410-3</a>) was retracted due to the use of a contaminated cell line; after communication with the original journal’s editors, we have obtained permission to replace the cell line and resubmit the manuscript. Bladder cancer (BLCa) metastasis is a predominant cause of death for bladder cancer patients. Histone demethylase KDM3A specifically removes the repressive mono- or di-methyl marks from H3K9 and thus contributes to the activation of gene transcription. However, the underlying mechanisms of KDM3A in bladder cancer are poorly understood. Here, we report that high levels of KDM3A are associated with bladder cancer clinical progression. KDM3A silencing inhibits bladder cancer cell growth, cell migration and invasion in vitro and in vivo. Mechanistically, we demonstrate that the deubiquitinase USP13 interacts with KDM3A and specifically removes its K63-linked ubiquitin chains, thereby indirectly promoting K48-linked polyubiquitination-dependent proteasomal degradation of KDM3A. USP13 was significantly down-regulated in bladder cancer tissues and negatively associated with KDM3A expression. Furthermore, we show in bladder injected-liver metastasis xenograft model that USP13 inhibits bladder cancer metastasis through destabilizing cytoplasmic KDM3A. Collectively, our findings identify KDM3A is an important regulator of bladder cancer cell growth and metastasis and targeting USP13/KDM3A complex could be a valuable strategy to ameliorate bladder cancer progression and metastasis.</p><p></p>

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Non-classic deubiquitinase USP13 inhibits bladder cancer metastasis through destabilizing cytoplasmic KDM3A

  • Hongji Hu,
  • Xiangpeng Zhan,
  • Yunqiang Xiong,
  • Ruize Yuan,
  • Yuanzhuo Du,
  • Qianxi Dong,
  • Sheng Li,
  • Biao Guo,
  • Zhongqi Li,
  • Jianhua Feng,
  • Situ Xiong,
  • Jing Xiong,
  • Dongshui Li,
  • Bin Fu,
  • Songhui Xu,
  • Ju Guo

摘要

The paper (https://doi.org/10.1038/s41388-025-03410-3) was retracted due to the use of a contaminated cell line; after communication with the original journal’s editors, we have obtained permission to replace the cell line and resubmit the manuscript. Bladder cancer (BLCa) metastasis is a predominant cause of death for bladder cancer patients. Histone demethylase KDM3A specifically removes the repressive mono- or di-methyl marks from H3K9 and thus contributes to the activation of gene transcription. However, the underlying mechanisms of KDM3A in bladder cancer are poorly understood. Here, we report that high levels of KDM3A are associated with bladder cancer clinical progression. KDM3A silencing inhibits bladder cancer cell growth, cell migration and invasion in vitro and in vivo. Mechanistically, we demonstrate that the deubiquitinase USP13 interacts with KDM3A and specifically removes its K63-linked ubiquitin chains, thereby indirectly promoting K48-linked polyubiquitination-dependent proteasomal degradation of KDM3A. USP13 was significantly down-regulated in bladder cancer tissues and negatively associated with KDM3A expression. Furthermore, we show in bladder injected-liver metastasis xenograft model that USP13 inhibits bladder cancer metastasis through destabilizing cytoplasmic KDM3A. Collectively, our findings identify KDM3A is an important regulator of bladder cancer cell growth and metastasis and targeting USP13/KDM3A complex could be a valuable strategy to ameliorate bladder cancer progression and metastasis.