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ZNF397 Deficiency Triggers TET2-driven Lineage Plasticity and AR-Targeted Therapy Resistance in Prostate Cancer.

Yaru XuYuqiu YangZhaoning WangMartin SjostromYuyin JiangYitao TangSiyuan ChengSu DengChoushi WangJulisa GonzalezNickolas A JohnsonXiang LiXiaoling LiLauren A MetangAtreyi MukherjiQuanhui XuCarla Rodriguez TiradoGarrett WainwrightXinzhe YuSpencer BarnesMia HofstadJuliet ChenHong ZhuAriella B HankerGanesh V RajGuanghui ZhuHousheng Hansen HeZhao WangCarlos L ArteagaHan LiangFelix Y FengYunguan WangTao WangPing Mu
Published in: Cancer discovery (2024)
Cancer cells exhibit phenotypical plasticity and epigenetic reprogramming, which allows them to evade lineage-dependent targeted treatments by adopting lineage plasticity. The underlying mechanisms by which cancer cells exploit the epigenetic regulatory machinery to acquire lineage plasticity and therapy resistance remain poorly understood. We identified Zinc Finger Protein 397 (ZNF397) as a bona fide coactivator of the androgen receptor (AR), essential for the transcriptional program governing AR-driven luminal lineage. ZNF397 deficiency facilitates the transition of cancer cell from an AR-driven luminal lineage to a Ten-Eleven Translocation 2 (TET2)-driven lineage plastic state, ultimately promoting resistance to therapies inhibiting AR signaling. Intriguingly, our findings indicate that a TET2 inhibitor can eliminate the resistance to AR targeted therapies in ZNF397-deficient tumors. These insights uncover a novel mechanism through which prostate cancer acquires lineage plasticity via epigenetic rewiring and offer promising implications for clinical interventions designed to overcome therapy resistance dictated by lineage plasticity.
Keyphrases
  • prostate cancer
  • single cell
  • gene expression
  • dna methylation
  • cell fate
  • transcription factor
  • physical activity
  • small molecule