DNA依赖蛋白激酶（DNA-PK）和DNA聚合酶θ的双重抑制克服了p53缺陷诱导的辐射抗性。

Dual inhibition of DNA-PK and DNA polymerase theta overcomes radiation resistance induced by p53 deficiency.

作者信息

Kumar Rashmi J, Chao Hui Xiao, Simpson Dennis A, Feng Wanjuan, Cho Min-Guk, Roberts Victoria R, Sullivan Aurora R, Shah Sonam J, Wozny Anne-Sophie, Fagan-Solis Katerina, Kumar Sunil, Luthman Adam, Ramsden Dale A, Purvis Jeremy E, Gupta Gaorav P

机构信息

Lineberger Comprehensive Cancer Center, University of North Carolina at Chapel Hill, Chapel Hill, NC 27599, USA.

Curriculum in Bioinformatics and Computational Biology, University of North Carolina at Chapel Hill, Chapel Hill, NC 27599, USA.

出版信息

NAR Cancer. 2020 Dec;2(4):zcaa038. doi: 10.1093/narcan/zcaa038. Epub 2020 Dec 21.

DOI:10.1093/narcan/zcaa038

PMID:33385162

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7751686/

Abstract

deficiency in cancer is associated with poor patient outcomes and resistance to DNA damaging therapies. However, the mechanisms underlying treatment resistance in p53-deficient cells remain poorly characterized. Using live cell imaging of DNA double-strand breaks (DSBs) and cell cycle state transitions, we show that p53-deficient cells exhibit accelerated repair of radiomimetic-induced DSBs arising in S phase. Low-dose DNA-dependent protein kinase (DNA-PK) inhibition increases the S-phase DSB burden in p53-deficient cells, resulting in elevated rates of mitotic catastrophe. However, a subset of p53-deficient cells exhibits intrinsic resistance to radiomimetic-induced DSBs despite DNA-PK inhibition. We show that p53-deficient cells under DNA-PK inhibition utilize DNA polymerase theta (Pol θ)-mediated end joining repair to promote their viability in response to therapy-induced DSBs. Pol θ inhibition selectively increases S-phase DSB burden after radiomimetic therapy and promotes prolonged G2 arrest. Dual inhibition of DNA-PK and Pol θ restores radiation sensitivity in p53-deficient cells as well as in p53-mutant breast cancer cell lines. Thus, combination targeting of DNA-PK- and Pol θ-dependent end joining repair represents a promising strategy for overcoming resistance to DNA damaging therapies in p53-deficient cancers.

摘要

癌症中的缺陷与患者预后不良以及对DNA损伤疗法的抗性相关。然而，p53缺陷细胞中治疗抗性的潜在机制仍未得到充分表征。通过对DNA双链断裂（DSB）和细胞周期状态转变进行活细胞成像，我们发现p53缺陷细胞对在S期产生的放射模拟物诱导的DSB表现出加速修复。低剂量DNA依赖性蛋白激酶（DNA-PK）抑制增加了p53缺陷细胞中的S期DSB负担，导致有丝分裂灾难发生率升高。然而，尽管存在DNA-PK抑制，一部分p53缺陷细胞对放射模拟物诱导的DSB表现出内在抗性。我们表明，DNA-PK抑制下的p53缺陷细胞利用DNA聚合酶θ（Pol θ）介导的末端连接修复来促进其在应对治疗诱导的DSB时的存活能力。Pol θ抑制在放射模拟物治疗后选择性增加S期DSB负担并促进延长的G2期停滞。对DNA-PK和Pol θ的双重抑制恢复了p53缺陷细胞以及p53突变乳腺癌细胞系中的放射敏感性。因此，联合靶向DNA-PK和Pol θ依赖性末端连接修复是克服p53缺陷癌症对DNA损伤疗法抗性的一种有前景的策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/abd8/8210189/38492f52c6b1/zcaa038fig1.jpg

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DNA依赖蛋白激酶（DNA-PK）和DNA聚合酶θ的双重抑制克服了p53缺陷诱导的辐射抗性。

Dual inhibition of DNA-PK and DNA polymerase theta overcomes radiation resistance induced by p53 deficiency.

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