Shaghayegh Nouruzi, Nakisa Tabrizian, Amina Zoubeidi
Endocrinology, Volume 164, Issue 4, April 2023, bqad023
https://doi.org/10.1210/endocr/bqad023
Despite the development of effective targeted therapies and a significant understanding of carcinogenesis and cancer progression, treatment resistance is a major obstacle in achieving durable long-term control in many types of cancers. Emerging evidence supports that nongenetic mechanisms could play an underappreciated role in therapy resistance. These mechanisms include phenotypic plasticity, which is recognized as a hallmark of cancer and translates to epigenetic and transcriptional control of gene expression. Alterations in the expression and activity of the epigenetic modifier enhancer of zeste homolog 2 (EZH2) support prostate cancer lineage plasticity and progression. EZH2 expression and activity is elevated in castration-resistant prostate cancer treated with androgen receptor pathway inhibitors and in treatment-resistant prostate cancer. Moreover, 17 known residues of EZH2 are phosphorylated on by multiple kinases that modulate its activity, localization, stability, and polycomb repressive complex (PRC2) assembly. In this review, we explore the contribution of EZH2 phosphorylation in regulating canonical PRC2 in a methylation-dependent manner as an epigenetic repressor and in a noncanonical manner independent of PRC2 as a transcription activator. Apart from the contribution of EZH2 phosphorylation at serine 21, threonine 350, and threonine 311 in prostate cancer progression and treatment resistance, we discuss how other EZH2 phosphorylated residues with unknown functions could contribute to prostate cancer based on their upstream regulators and potential therapeutic utility.
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