PARP-HPF1相互作用抑制剂影响DNA损伤修复的高通量筛选试验

Saurabh S. Dhakar, Albert Galera-Prat, Lari Lehtiö
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引用次数: 0

摘要

adp -核糖基转移酶PARP1和PARP2通过检测DNA损伤和诱导多adp -核糖基化依赖的染色质松弛和修复蛋白的募集,在DNA修复机制中发挥重要作用。催化PARP抑制剂被用作抗癌药物,特别是在由致敏突变引起的肿瘤的情况下。最近一项研究表明,组蛋白PARylation Factor (HPF1)与PARP1/2形成一个联合活性位点。HPF1与PARP1/2的相互作用改变了自修饰位点从天冬氨酸、谷氨酸到丝氨酸,这已被证明是DNA损伤背景下关键的adp核糖基化事件。因此,破坏PARP1/2- hpf1相互作用可能是阻断PARP1/2活性的药物开发的另一种策略。在这项研究中,我们描述了一种基于FRET的高通量筛选试验,以筛选PARP-HPF1相互作用的抑制剂文库。我们优化了FRET信号的条件,并通过多种方式竞争FRET对来验证相互作用。该分析稳健且易于自动化。验证性筛选结果表明,该方法具有较强的抑制能力,发现两种化合物(dimethylacryylshikonin和Alkannin)对PARP1/2-HPF1相互作用具有μM的抑制作用。该试验将有助于发现HPF1-PARP1/2复合物的抑制剂,并开发潜在的新的有效抗癌药物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High-throughput screening assay for PARP-HPF1 interaction inhibitors to affect DNA damage repair
ADP-ribosyltransferases PARP1 and PARP2 play a major role in DNA repair mechanism by detecting the DNA damage and inducing poly-ADP-ribosylation dependent chromatin relaxation and recruitment of repair proteins. Catalytic PARP inhibitors are used as anticancer drugs especially in the case of tumors arising from sensitizing mutations. Recently, a study showed that Histone PARylation Factor (HPF1) forms a joint active site with PARP1/2. The interaction of HPF1 with PARP1/2 alters the automodification site from Aspartate, Glutamate to Serine, which has been shown to be a key ADP-ribosylation event in the context of DNA damage. Therefore disruption of PARP1/2-HPF1 interaction could be an alternative strategy for drug development to block the PARP1/2 activity. In this study, we describe a FRET based high-throughput screening assay to screen inhibitor libraries against PARP-HPF1 interaction. We optimized the conditions for FRET signal and verified the interaction by competing the FRET pair in multiple ways. The assay is robust and easy to automate. Validatory screening showed the robust performance of the assay, and we discovered two compounds, Dimethylacrylshikonin and Alkannin, with μM inhibition potency against PARP1/2-HPF1 interaction. The assay will facilitate the discovery of inhibitors against HPF1-PARP1/2 complex and to develop potentially new effective anticancer agents.
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