Litcius/Paper detail

KAT2A-mediated AR translocation into nucleus promotes abiraterone-resistance in castration-resistant prostate cancer

Dingheng Lu, Yarong Song, Ying Yu, Decai Wang, Bing Liu, Liang Chen, Xuexiang Li, Yunxue Li, Lulin Cheng, Fang Lv, Pu Zhang, Yifei Xing

2021Cell Death and Disease50 citationsDOIOpen Access PDF

Abstract

Abiraterone, a novel androgen synthesis inhibitor, has been approved for castration-resistant prostate cancer (CRPC) treatment. However, most patients eventually acquire resistance to this agent, and the underlying mechanisms related to this resistance remain largely unelucidated. Lysine acetyltransferase 2 A (KAT2A) has been reported to enhance transcriptional activity for certain histone or non-histone proteins through the acetylation and post-translational modification of the androgen receptor (AR). Therefore, we hypothesised that KAT2A might play a critical role in the resistance of prostate tumours to hormonal treatment. In this study, we found that KAT2A expression was increased in abiraterone-resistant prostate cancer C4-2 cells (C4-2-AbiR). Consistently, elevated expression of KAT2A was observed in patients with prostate cancer exhibiting high-grade disease or biochemical recurrence following radical prostatectomy, as well as in those with poor clinical survival outcomes. Moreover, KAT2A knockdown partially re-sensitised C4-2-AbiR cells to abiraterone, whereas KAT2A overexpression promoted abiraterone resistance in parental C4-2 cells. Consistent with this finding, KAT2A knockdown rescued abiraterone sensitivity and inhibited the proliferation of C4-2-AbiR cells in a mouse model. Mechanistically, KAT2A directly acetylated the hinge region of the AR, and induced AR translocation from the cytoplasm to the nucleus, resulting in increased transcriptional activity of the AR-targeted gene prostate specific antigen (PSA) leading to resistance to the inhibitory effect of abiraterone on proliferation. Taken together, our findings demonstrate a substantial role for KAT2A in the regulation of post-translational modifications in AR affecting CRPC development, suggesting that targeting KAT2A might be a potential strategy for CRPC treatment.

Topics & Concepts

Prostate cancerGene knockdownCancer researchAndrogen receptorAbiraterone acetateBiologyDownregulation and upregulationHistone acetyltransferaseAndrogenAndrogen deprivation therapyMedicineAcetylationCancerChemistryEndocrinologyInternal medicineCell cultureGeneHormoneGeneticsProstate Cancer Treatment and ResearchUbiquitin and proteasome pathwaysProstate Cancer Diagnosis and Treatment