基于流式细胞术的全基因组 CRISPR 筛选确定了 DNA 损伤信号通路的关键调节因子。

FACS-based genome-wide CRISPR screens define key regulators of DNA damage signaling pathways.

机构信息

Department of Experimental Radiation Oncology, The University of Texas MD Anderson Cancer Center, Houston, TX 77030, USA.

Department of Hepatopancreatobiliary Surgery, Shenzhen Institute of Translational Medicine, Health Science Center, The First Affiliated Hospital of Shenzhen University, Shenzhen Second People's Hospital, Shenzhen, China.

出版信息

Mol Cell. 2023 Aug 3;83(15):2810-2828.e6. doi: 10.1016/j.molcel.2023.07.004.

DOI:10.1016/j.molcel.2023.07.004

PMID:37541219

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10421629/

Abstract

DNA damage-activated signaling pathways are critical for coordinating multiple cellular processes, which must be tightly regulated to maintain genome stability. To provide a comprehensive and unbiased perspective of DNA damage response (DDR) signaling pathways, we performed 30 fluorescence-activated cell sorting (FACS)-based genome-wide CRISPR screens in human cell lines with antibodies recognizing distinct endogenous DNA damage signaling proteins to identify critical regulators involved in DDR. We discovered that proteasome-mediated processing is an early and prerequisite event for cells to trigger camptothecin- and etoposide-induced DDR signaling. Furthermore, we identified PRMT1 and PRMT5 as modulators that regulate ATM protein level. Moreover, we discovered that GNB1L is a key regulator of DDR signaling via its role as a co-chaperone specifically regulating PIKK proteins. Collectively, these screens offer a rich resource for further investigation of DDR, which may provide insight into strategies of targeting these DDR pathways to improve therapeutic outcomes.

摘要

DNA 损伤激活的信号通路对于协调多种细胞过程至关重要，这些过程必须受到严格调控以维持基因组稳定性。为了全面而公正地了解 DNA 损伤反应 (DDR) 信号通路，我们使用识别不同内源性 DNA 损伤信号蛋白的抗体，在人类细胞系中进行了 30 次基于荧光激活细胞分选 (FACS) 的全基因组 CRISPR 筛选，以鉴定 DDR 中涉及的关键调节因子。我们发现蛋白酶体介导的加工是细胞触发喜树碱和依托泊苷诱导的 DDR 信号的早期和必要事件。此外，我们确定 PRMT1 和 PRMT5 是调节 ATM 蛋白水平的调节剂。此外，我们发现 GNB1L 通过其作为专门调节 PIKK 蛋白的共伴侣的作用，是 DDR 信号的关键调节剂。总之，这些筛选为进一步研究 DDR 提供了丰富的资源，这可能为靶向这些 DDR 途径以改善治疗效果的策略提供了思路。

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