EZH2 directly methylates PARP1 and regulates its activity in cancer

Qingshu Meng; Jiangchuan Shen; Yanan Ren; Qi Liu; Rui Wang; Qiaqia Li; Weihua Jiang; Quan Wang; Yixiang Zhang; Jonathan C. Trinidad; Xiaotong Lu; Tingyou Wang; Yanqiang Li; Chaehyun Yum; Yang Yi; Yongyong Yang; Dongyu Zhao; Clair Harris; Sundeep Kalantry; Kaifu Chen; Rendong Yang; Hengyao Niu; Qi Cao

doi:10.1126/sciadv.adl2804

EZH2 directly methylates PARP1 and regulates its activity in cancer

Qingshu Meng, Jiangchuan Shen, Yanan Ren, Qi Liu, Rui Wang, Qiaqia Li, Weihua Jiang, Quan Wang, Yixiang Zhang, Jonathan C. Trinidad, Xiaotong Lu, Tingyou Wang, Yanqiang Li, Chaehyun Yum, Yang Yi, Yongyong Yang, Dongyu Zhao, Clair Harris, Sundeep Kalantry, Kaifu ChenRendong Yang, Hengyao Niu, Qi Cao

Research output: Contribution to journal › Article › peer-review

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Abstract

DNA repair dysregulation is a key driver of cancer development. Understanding the molecular mechanisms underlying DNA repair dysregulation in cancer cells is crucial for cancer development and therapies. Here, we report that enhancer of zeste homolog 2 (EZH2) directly methylates poly(adenosine diphosphate–ribose) polymerase-1 (PARP-1), an essential enzyme involved in DNA repair, and regulates its activity. Functionally, EZH2-catalyzed methylation represses PARP1 catalytic activity, down-regulates the recruitment of x-ray repair cross-complementing group-1 to DNA lesions and its associated DNA damage repair; on the other hand, it protects the cells from nicotinamide adenine dinucleotide overconsumption upon DNA damage formation. Meanwhile, EZH2-mediated methylation regulates PARP1 transcriptional and oncogenic activity, at least in part, through impairing PARP1-E2F1 interaction and E2F1 transcription factor activity. EZH2 and PARP1 inhibitors synergistically suppress prostate cancer growth. Collectively, our findings uncover an insight of EZH2 functions in fine-tuning PARP1 activity during DNA damage repair and cancer progression, which provides a rationale for combinational targeting EZH2 and PARP1 in cancer.

Original language	English (US)
Article number	eadl2804
Journal	Science Advances
Volume	10
Issue number	48
DOIs	https://doi.org/10.1126/sciadv.adl2804
State	Published - Nov 29 2024

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title = "EZH2 directly methylates PARP1 and regulates its activity in cancer",

abstract = "DNA repair dysregulation is a key driver of cancer development. Understanding the molecular mechanisms underlying DNA repair dysregulation in cancer cells is crucial for cancer development and therapies. Here, we report that enhancer of zeste homolog 2 (EZH2) directly methylates poly(adenosine diphosphate–ribose) polymerase-1 (PARP-1), an essential enzyme involved in DNA repair, and regulates its activity. Functionally, EZH2-catalyzed methylation represses PARP1 catalytic activity, down-regulates the recruitment of x-ray repair cross-complementing group-1 to DNA lesions and its associated DNA damage repair; on the other hand, it protects the cells from nicotinamide adenine dinucleotide overconsumption upon DNA damage formation. Meanwhile, EZH2-mediated methylation regulates PARP1 transcriptional and oncogenic activity, at least in part, through impairing PARP1-E2F1 interaction and E2F1 transcription factor activity. EZH2 and PARP1 inhibitors synergistically suppress prostate cancer growth. Collectively, our findings uncover an insight of EZH2 functions in fine-tuning PARP1 activity during DNA damage repair and cancer progression, which provides a rationale for combinational targeting EZH2 and PARP1 in cancer.",

author = "Qingshu Meng and Jiangchuan Shen and Yanan Ren and Qi Liu and Rui Wang and Qiaqia Li and Weihua Jiang and Quan Wang and Yixiang Zhang and Trinidad, {Jonathan C.} and Xiaotong Lu and Tingyou Wang and Yanqiang Li and Chaehyun Yum and Yang Yi and Yongyong Yang and Dongyu Zhao and Clair Harris and Sundeep Kalantry and Kaifu Chen and Rendong Yang and Hengyao Niu and Qi Cao",

note = "Publisher Copyright: {\textcopyright} 2024 the Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science.",

year = "2024",

month = nov,

day = "29",

doi = "10.1126/sciadv.adl2804",

language = "English (US)",

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T1 - EZH2 directly methylates PARP1 and regulates its activity in cancer

AU - Meng, Qingshu

AU - Shen, Jiangchuan

AU - Ren, Yanan

AU - Liu, Qi

AU - Wang, Rui

AU - Li, Qiaqia

AU - Jiang, Weihua

AU - Wang, Quan

AU - Zhang, Yixiang

AU - Trinidad, Jonathan C.

AU - Lu, Xiaotong

AU - Wang, Tingyou

AU - Li, Yanqiang

AU - Yum, Chaehyun

AU - Yi, Yang

AU - Yang, Yongyong

AU - Zhao, Dongyu

AU - Harris, Clair

AU - Kalantry, Sundeep

AU - Chen, Kaifu

AU - Yang, Rendong

AU - Niu, Hengyao

AU - Cao, Qi

PY - 2024/11/29

Y1 - 2024/11/29

N2 - DNA repair dysregulation is a key driver of cancer development. Understanding the molecular mechanisms underlying DNA repair dysregulation in cancer cells is crucial for cancer development and therapies. Here, we report that enhancer of zeste homolog 2 (EZH2) directly methylates poly(adenosine diphosphate–ribose) polymerase-1 (PARP-1), an essential enzyme involved in DNA repair, and regulates its activity. Functionally, EZH2-catalyzed methylation represses PARP1 catalytic activity, down-regulates the recruitment of x-ray repair cross-complementing group-1 to DNA lesions and its associated DNA damage repair; on the other hand, it protects the cells from nicotinamide adenine dinucleotide overconsumption upon DNA damage formation. Meanwhile, EZH2-mediated methylation regulates PARP1 transcriptional and oncogenic activity, at least in part, through impairing PARP1-E2F1 interaction and E2F1 transcription factor activity. EZH2 and PARP1 inhibitors synergistically suppress prostate cancer growth. Collectively, our findings uncover an insight of EZH2 functions in fine-tuning PARP1 activity during DNA damage repair and cancer progression, which provides a rationale for combinational targeting EZH2 and PARP1 in cancer.

AB - DNA repair dysregulation is a key driver of cancer development. Understanding the molecular mechanisms underlying DNA repair dysregulation in cancer cells is crucial for cancer development and therapies. Here, we report that enhancer of zeste homolog 2 (EZH2) directly methylates poly(adenosine diphosphate–ribose) polymerase-1 (PARP-1), an essential enzyme involved in DNA repair, and regulates its activity. Functionally, EZH2-catalyzed methylation represses PARP1 catalytic activity, down-regulates the recruitment of x-ray repair cross-complementing group-1 to DNA lesions and its associated DNA damage repair; on the other hand, it protects the cells from nicotinamide adenine dinucleotide overconsumption upon DNA damage formation. Meanwhile, EZH2-mediated methylation regulates PARP1 transcriptional and oncogenic activity, at least in part, through impairing PARP1-E2F1 interaction and E2F1 transcription factor activity. EZH2 and PARP1 inhibitors synergistically suppress prostate cancer growth. Collectively, our findings uncover an insight of EZH2 functions in fine-tuning PARP1 activity during DNA damage repair and cancer progression, which provides a rationale for combinational targeting EZH2 and PARP1 in cancer.

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JO - Science Advances

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EZH2 directly methylates PARP1 and regulates its activity in cancer

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