克服 EZH2 抑制的临床耐药性:合理的表观遗传联合治疗策略
Overcoming Clinical Resistance to EZH2 Inhibition Using Rational Epigenetic Combination Therapy.
机构信息
Molecular Pharmacology Program, Sloan Kettering Institute, Memorial Sloan Kettering Cancer Center, New York, New York.
Tow Center for Developmental Oncology, Department of Pediatrics, Memorial Sloan Kettering Cancer Center, New York, New York.
出版信息
Cancer Discov. 2024 Jun 3;14(6):965-981. doi: 10.1158/2159-8290.CD-23-0110.
UNLABELLED
Epigenetic dependencies have become evident in many cancers. On the basis of antagonism between BAF/SWI-SNF and PRC2 in SMARCB1-deficient sarcomas, we recently completed the clinical trial of the EZH2 inhibitor tazemetostat. However, the principles of tumor response to epigenetic therapy in general, and tazemetostat in particular, remain unknown. Using functional genomics and diverse experimental models, we define molecular mechanisms of tazemetostat resistance in SMARCB1-deficient tumors. We found distinct acquired mutations that converge on the RB1/E2F axis and decouple EZH2-dependent differentiation and cell-cycle control. This allows tumor cells to escape tazemetostat-induced G1 arrest, suggests a general mechanism for effective therapy, and provides prospective biomarkers for therapy stratification, including PRICKLE1. On the basis of this, we develop a combination strategy to circumvent tazemetostat resistance using bypass targeting of AURKB. This offers a paradigm for rational epigenetic combination therapy suitable for translation to clinical trials for epithelioid sarcomas, rhabdoid tumors, and other epigenetically dysregulated cancers.
SIGNIFICANCE
Genomic studies of patient epithelioid sarcomas and rhabdoid tumors identify mutations converging on a common pathway for response to EZH2 inhibition. Resistance mutations decouple drug-induced differentiation from cell-cycle control. We identify an epigenetic combination strategy to overcome resistance and improve durability of response, supporting its investigation in clinical trials. See related commentary by Paolini and Souroullas, p. 903. This article is featured in Selected Articles from This Issue, p. 897.
未加标签
在许多癌症中,表观遗传依赖性已经变得明显。基于 BAF/SWI-SNF 和 PRC2 在 SMARCB1 缺陷肉瘤中的拮抗作用,我们最近完成了 EZH2 抑制剂 tazemetostat 的临床试验。然而,肿瘤对表观遗传治疗的反应原则,特别是 tazemetostat 的反应原则,仍然未知。通过功能基因组学和多种实验模型,我们定义了 SMARCB1 缺陷肿瘤中 tazemetostat 耐药的分子机制。我们发现了独特的获得性突变,这些突变集中在 RB1/E2F 轴上,并使 EZH2 依赖性分化和细胞周期控制解耦。这使得肿瘤细胞能够逃避 tazemetostat 诱导的 G1 期阻滞,提示了一种有效的治疗一般机制,并提供了用于治疗分层的前瞻性生物标志物,包括 PRICKLE1。在此基础上,我们开发了一种组合策略,使用 AURKB 的旁路靶向来规避 tazemetostat 耐药。这为合理的表观遗传联合治疗提供了一个范例,适合转化为上皮样肉瘤、横纹肌瘤和其他表观遗传失调癌症的临床试验。
意义
对患者上皮样肉瘤和横纹肌瘤的基因组研究确定了突变,这些突变集中在对 EZH2 抑制的反应的共同途径上。耐药突变使药物诱导的分化与细胞周期控制解耦。我们确定了一种表观遗传组合策略来克服耐药性并提高反应的持久性,支持在临床试验中对其进行研究。请参阅本期相关评论文章,第 903 页。本文是本期精选文章的一部分,第 897 页。
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