去势抵抗性前列腺癌中阿比特龙耐药背后的超级增强子驱动转录调控回路

A Super-Enhancer-Driven Transcriptional Regulatory Circuit Underlying Abiraterone Resistance in Castration-Resistant Prostate Cancer.

作者信息

Jiang Liling, Wang Jiamin, Peng Guanjie, Zhang Haichuan, Fang Jinxin, Gao Yingyin, Lou Enzhe, Liu Yangzhou, Ding Wa, Liu Bingyuan, Mao Qiong, Jiang Lizhen, Liu Aochu, Li Xinyue, Hu Shiwen, Ma Qiaomin, Zheng Yueyuan, Zhao Zhigang, Shi Xianping

机构信息

Guangzhou Municipal and Guangdong Provincial Key Laboratory of Protein Modification and Degradation, Sino-French Hoffmann Institute, School of Basic Medical Sciences, Guangzhou Medical University, Guangzhou, Guangdong, 511436, P. R. China.

The Affiliated Traditional Chinese Medicine Hospital, Guangzhou Medical University, Guangzhou, Guangdong, 510130, P. R. China.

出版信息

Adv Sci (Weinh). 2025 Aug;12(31):e01284. doi: 10.1002/advs.202501284. Epub 2025 Jun 5.

DOI:10.1002/advs.202501284

PMID:40470696

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12376675/

Abstract

Castration-resistant prostate cancer (CRPC) remains the leading cause of mortality among prostate cancer patients. While second-generation androgen receptor (AR) pathway-targeted therapies, such as Abiraterone, have significantly improved survival outcomes, resistance to these treatments ultimately emerges, posing a critical challenge. Understanding the mechanisms underlying Abiraterone resistance is essential for developing strategies to enhance patient outcomes. In this study, a super-enhancer (SE)-driven transcriptional regulatory circuit is identified involving BCL6, NFIB, and SMAD3 that facilitates Abiraterone resistance in CRPC. Through comprehensive analyses of SE expression profiles in Abiraterone-resistant CRPC cells and their parental counterparts, it is revealed that this circuit plays a pivotal role in resistance progression. Mechanistically, BCL6, NFIB, and SMAD3 synergistically remodel the transcriptional landscape of resistant CRPC cells, driving resistance by regulating cholesterol biosynthesis and cell cycle pathways. The findings provide critical insights into the transcriptional dysregulation underlying Abiraterone resistance and highlight potential therapeutic strategies to counteract treatment resistance in CRPC, ultimately aiming to improve patient survival and quality of life.

摘要

去势抵抗性前列腺癌（CRPC）仍然是前列腺癌患者死亡的主要原因。虽然第二代雄激素受体（AR）通路靶向疗法，如阿比特龙，显著改善了生存结果，但最终会出现对这些治疗的耐药性，这构成了一项严峻挑战。了解阿比特龙耐药的潜在机制对于制定改善患者预后的策略至关重要。在本研究中，鉴定出一种由超级增强子（SE）驱动的转录调控回路，涉及BCL6、NFIB和SMAD3，该回路促进CRPC中的阿比特龙耐药。通过对阿比特龙耐药CRPC细胞及其亲本细胞的SE表达谱进行全面分析，发现该回路在耐药进展中起关键作用。从机制上讲，BCL6、NFIB和SMAD3协同重塑耐药CRPC细胞的转录格局，通过调节胆固醇生物合成和细胞周期通路来驱动耐药性。这些发现为阿比特龙耐药背后的转录失调提供了关键见解，并突出了对抗CRPC治疗耐药性的潜在治疗策略，最终目标是提高患者的生存率和生活质量。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c3b2/12376675/2e921dbbd2d3/ADVS-12-e01284-g005.jpg

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A Super-Enhancer-Driven Transcriptional Regulatory Circuit Underlying Abiraterone Resistance in Castration-Resistant Prostate Cancer.去势抵抗性前列腺癌中阿比特龙耐药背后的超级增强子驱动转录调控回路

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Cancer Res. 2024 Jun 14;84(12):1947-1962. doi: 10.1158/0008-5472.CAN-23-1954.

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去势抵抗性前列腺癌中阿比特龙耐药背后的超级增强子驱动转录调控回路

A Super-Enhancer-Driven Transcriptional Regulatory Circuit Underlying Abiraterone Resistance in Castration-Resistant Prostate Cancer.

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