联合抑制 HDAC8 和检查点激酶可在临床前模型中诱导肿瘤选择性合成致死。

Ting-Yu Chang,Yan Yan,Zih-Yao Yu,Moeez Rathore,Nian-Zhe Lee,Hui-Ju Tseng,Li-Hsin Cheng,Wei-Jan Huang,Wei Zhang,Ernest R Chan,Yulan Qing,Ming-Lun Kang,Rui Wang,Kelvin K Tsai,John J Pink,William E Harte,Stanton L Gerson,Sung-Bau Lee
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摘要

复制应激水平升高是癌细胞的固有特征。以维持基因组稳定性的机制为靶点,进一步增加复制压力,从而诱发严重的基因组不稳定性,已成为一种很有前景的癌症治疗方法。在这里,我们发现组蛋白去乙酰化酶8(HDAC8)是一种药物靶点,它的失活可与检查点激酶的抑制协同作用,从而在癌细胞中诱发大量复制应激并有选择性地损害基因组完整性。我们的研究表明,同时抑制 HDAC8 和检查点激酶会导致广泛的复制叉崩溃、不可逆的细胞周期停滞以及各种癌细胞的协同脆弱性。在患者肿瘤衍生类器官(PDO)和异种移植小鼠(PDX)模型中进一步验证了联合治疗的疗效,为了解患者的特异性药物反应提供了重要依据。我们的数据显示,HDAC8的活性对于降低复制叉前染色体结构维持蛋白3(SMC3)的乙酰化水平和防止R环的形成至关重要。HDAC8 失活会导致分叉进程减慢和检查点激酶激活。我们的研究结果表明,HDAC8能保护复制基因组的完整性,而HDAC8与检查点激酶之间的癌症特异性合成致死性为治疗各种癌症提供了一种前景广阔的复制压力靶向策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Combined HDAC8 and checkpoint kinase inhibition induces tumor-selective synthetic lethality in preclinical models.
The elevated level of replication stress is an intrinsic characteristic of cancer cells. Targeting the mechanisms that maintain genome stability to further increase replication stress and thus induce severe genome instability has become a promising approach for cancer treatment. Here, we identify histone deacetylase 8 (HDAC8) as a drug target whose inactivation synergizes with the inhibition of checkpoint kinases to elicit substantial replication stress and compromise genome integrity selectively in cancer cells. We showed that simultaneous inhibition of HDAC8 and checkpoint kinases led to extensive replication fork collapse, irreversible cell-cycle arrest, and synergistic vulnerability in various cancer cells. The efficacy of the combination treatment was further validated in patient tumor-derived organoid (PDO) and xenograft mouse (PDX) models, providing important insights into patient-specific drug responses. Our data revealed that HDAC8 activity was essential for reducing the acetylation level of structural maintenance of chromosomes protein 3 (SMC3) ahead of replication forks and preventing R loop formation. HDAC8 inactivation resulted in slowed fork progression and checkpoint kinase activation. Our findings indicate that HDAC8 guards the integrity of the replicating genome, and the cancer-specific synthetic lethality between HDAC8 and checkpoint kinases provides a promising replication stress-targeting strategy for treating a broad range of cancers.
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