PARP 诱捕受 PARP 抑制剂解离速率常数的控制

IF 6.6 1区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Cell Chemical Biology Pub Date : 2024-07-18 DOI:10.1016/j.chembiol.2023.12.019

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引用次数: 0

摘要

聚（ADP-核糖）聚合酶（PARP）抑制剂（PARPi）是一类抗癌药物，可在 DNA 损伤部位酶促抑制 PARP 的活性。然而，PARPi 主要通过将 PARP1 诱捕到 DNA 上而发挥作用，在临床相关的抑制剂中，PARPi 的效力差异很大。PARPi 如何捕获以及为什么有些捕获效果更好仍是未知数。在这里，我们发现捕获主要是通过 DNA 损伤部位的动力学现象发生的，这种动力学现象与 PARPi koff 相关。我们的研究结果表明，PARP 捕捉不是 PARP1 在 DNA 上的物理停滞，而是在没有其他 DNA 结合蛋白招募的情况下，PARP 重新结合受损 DNA 的高概率。这些结果澄清了 PARPi 如何捕获，为 PARPi 如何发挥作用提供了新的思路，并描述了 PARPi 的特性与捕获效力之间的关系。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

PARP trapping is governed by the PARP inhibitor dissociation rate constant

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PARP trapping is governed by the PARP inhibitor dissociation rate constant

Poly(ADP-ribose) polymerase (PARP) inhibitors (PARPi) are a class of cancer drugs that enzymatically inhibit PARP activity at sites of DNA damage. Yet, PARPi function mainly by trapping PARP1 onto DNA with a wide range of potency among the clinically relevant inhibitors. How PARPi trap and why some are better trappers remain unknown. Here, we show trapping occurs primarily through a kinetic phenomenon at sites of DNA damage that correlates with PARPi k_off. Our results suggest PARP trapping is not the physical stalling of PARP1 on DNA, rather the high probability of PARP re-binding damaged DNA in the absence of other DNA-binding protein recruitment. These results clarify how PARPi trap, shed new light on how PARPi function, and describe how PARPi properties correlate to trapping potency.

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来源期刊

Cell Chemical Biology Biochemistry, Genetics and Molecular Biology-Molecular Medicine

CiteScore

14.70

自引率

2.30%

发文量

143

期刊介绍： Cell Chemical Biology, a Cell Press journal established in 1994 as Chemistry & Biology, focuses on publishing crucial advances in chemical biology research with broad appeal to our diverse community, spanning basic scientists to clinicians. Pioneering investigations at the chemistry-biology interface, the journal fosters collaboration between these disciplines. We encourage submissions providing significant conceptual advancements of broad interest across chemical, biological, clinical, and related fields. Particularly sought are articles utilizing chemical tools to perturb, visualize, and measure biological systems, offering unique insights into molecular mechanisms, disease biology, and therapeutics.