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Genomic and Evolutionary Characterization of Concurrent Intraductal Carcinoma and Adenocarcinoma of the Prostate.

Jinge ZhaoSha ZhuLing NieMeng-Ni ZhangLinmao ZhengNanwei XuDiming CaiXiaomeng SunJunru ChenJindong DaiYuchao NiZhipeng WangXingming ZhangJiayu LiangYuntian ChenXu HuXiuyi PanXiaoxue YinHaoyang LiuFengnian ZhaoBei ZhangHao ChenJiashun MiaoCong QinXiaochen ZhaoJin YaoZhenhua LiuBanghua LiaoQiang WeiXiang LiZhenhua LiuAllen C GaoZhenlin HuangPeng-Fei ShenNi ChenHao ZengGuangxi Sun
Published in: Cancer research (2023)
Intraductal carcinoma of the prostate (IDC-P) is a lethal prostate cancer subtype that generally co-exists with invasive high-grade prostate acinar adenocarcinoma (PAC) but exhibits distinct biological features compared to concomitant adenocarcinoma. In this study, we performed whole-exome, RNA, and DNA-methylation sequencing of IDC-P, concurrent invasive high-grade PAC lesions, and adjacent normal prostate tissues isolated from 22 radical prostatectomy specimens. Three evolutionary patterns of concurrent IDC-P and PAC were identified: early divergent, late divergent, and clonally distant. In contrast to those with a late divergent evolutionary pattern, tumors with clonally distant and early divergent evolutionary patterns showed higher genomic, epigenomic, transcriptional, and pathological heterogeneity between IDC-P and PAC. Compared to co-existing PAC, IDC-P displayed increased expression of adverse prognosis-associated genes. Survival analysis based on an independent cohort of 505 metastatic prostate cancer patients revealed that IDC-P carriers with lower risk ISUP grade 1-4 adenocarcinoma displayed a castration-resistant free survival as poor as those with the highest risk ISUP grade 5 tumors that lacked concurrent IDC-P. Furthermore, IDC-P exhibited robust cell-cycle progression and androgen receptor activities, characterized by an enrichment of cellular proliferation-associated master regulators and genes involved in intratumoral androgen biosynthesis. Overall, this study provides a molecular groundwork for the aggressive behavior of IDC-P and could help identify potential strategies to improve treatment of IDC-P.
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