MUC1-C Activates the BAF (mSWI/SNF) Complex in Prostate Cancer Stem Cells

同源盒蛋白纳米 癌症研究 前列腺癌 癌症干细胞 生物 癌变 转录因子 干细胞 LNCaP公司 胚胎干细胞 细胞生物学 癌症 诱导多能干细胞 遗传学 基因
作者
Masayuki Hagiwara,Yota Yasumizu,Nami Yamashita,Hasan Rajabi,Atsushi Fushimi,Mark D. Long,Wei Li,Atrayee Bhattacharya,Rehan Ahmad,Mototsugu Oya,Song Liu,Donald Küfe
出处
期刊:Cancer Research [American Association for Cancer Research]
卷期号:81 (4): 1111-1122 被引量:63
标识
DOI:10.1158/0008-5472.can-20-2588
摘要

Abstract The Brg/Brahma-associated factor (BAF, mSWI/SNF) chromatin remodeling complex is of importance in development and has been linked to prostate oncogenesis. The oncogenic MUC1-C protein promotes lineage plasticity in the progression of neuroendocrine prostate cancer (NEPC), however, there is no known association between MUC1-C and BAF. We report here that MUC1-C binds directly to the E2F1 transcription factor and that the MUC1-C→E2F1 pathway induces expression of embryonic stem cell–specific BAF (esBAF) components BRG1, ARID1A, BAF60a, BAF155, and BAF170 in castrate-resistant prostate cancer (CRPC) and NEPC cells. In concert with this previously unrecognized pathway, MUC1 was associated with increased expression of E2F1 and esBAF components in NEPC tumors as compared with CRPC, supporting involvement of MUC1-C in activating the E2F1→esBAF pathway with progression to NEPC. MUC1-C formed a nuclear complex with BAF and activated cancer stem cell (CSC) gene signatures and the core pluripotency factor gene network. The MUC1-C→E2F1→BAF pathway was necessary for induction of both the NOTCH1 effector of CSC function and the NANOG pluripotency factor, and collectively, this network drove CSC self-renewal. These findings indicate that MUC1-C promotes NEPC progression by integrating activation of E2F1 and esBAF with induction of NOTCH1, NANOG, and stemness. Significance: These findings show that MUC1-C, which promotes prostate cancer progression, activates a novel pathway that drives the BAF remodeling complex, induces NOTCH1 and NANOG, and promotes self-renewal of prostate cancer stem cells.
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