STAG2 Regulates Homologous Recombination Repair and Sensitivity to ATM Inhibition

Zhou, Jie; Nie, Run‐Cong; He, Zhang‐Ping; Cai, Xiao‐Xia; Chen, Jie‐Wei; Lin, Wen‐ping; Yin, Yi‐Xin; Xiang, Zhi‐Cheng; Zhu, Tian‐Chen; Xie, Juan‐Juan; Zhang, You‐Cheng; Wang, Xin; Lin, Peng; Xie, Dan; D'Andrea, Alan D; Cai, Mu‐Yan

doi:10.1002/advs.202302494

Advanced Science

2023

DOI: 10.1002/advs.202302494

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STAG2 Regulates Homologous Recombination Repair and Sensitivity to ATM Inhibition

Jie Zhou,

Run‐Cong Nie,

Zhang‐Ping He

et al.

Abstract: Stromal antigen 2 (STAG2), a subunit of the cohesin complex, is recurrently mutated in various tumors. However, the role of STAG2 in DNA repair and its therapeutic implications are largely unknown. Here it is reported that knockout of STAG2 results in increased double‐stranded breaks (DSBs) and chromosomal aberrations by reducing homologous recombination (HR) repair, and confers hypersensitivity to inhibitors of ataxia telangiectasia mutated (ATMi), Poly ADP Ribose Polymerase (PARPi), or the combination of bot… Show more

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Cited by 3 publications

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Small Molecular Inhibitors That Target ATM for Drug Discovery: Current Research and Potential Prospective

Qian,

Li,

Zhang

et al. 2024

J. Med. Chem.

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The protein kinase ataxia telangiectasia mutated (ATM) is a constituent of the phosphatidylinositol 3-kinase-related kinase (PIKK) family, exerting a pivotal influence on diverse cellular processes, notably the signaling of double-strand DNA breaks (DSB) and stress response. The dysregulation of ATM is implicated in the pathogenesis of cancer and other diseases such as neurodegeneration. Hence, ATM is deemed a promising candidate for potential therapeutic interventions across a spectrum of diseases. Presently, while ATM small molecule inhibitors are not commercially available, various selective inhibitors have progressed to the clinical research phase. Specifically, AZD1390, WSD0628, SYH2051, and ZN-B-2262 are under investigation in clinical studies pertaining to glioblastoma multiforme and advanced solid tumors, respectively. In this Perspective, we encapsulate the structure, biological functions, and disease relevance of ATM. Subsequently, we concentrate on the design concepts and structure−activity relationships (SAR) of ATM inhibitors, delineating potential avenues for the development of more efficacious ATM-targeted inhibitors. ■ SIGNIFICANCEThis work presents a concise overview of research in the field of ATM inhibition for cancer, concentrating on medicinal chemistry. An analysis of compounds presently entering clinical trials elucidates extant challenges and provides perspectives on potential solutions. Future prospects and developmental recommendations are expounded upon, underscoring the necessity for distinctive viewpoints and analyses in medicinal chemistry to engender critical thinking, broaden comprehension, and propel advancements in this field.

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Small Molecular Inhibitors That Target ATM for Drug Discovery: Current Research and Potential Prospective

Qian,

Li,

Zhang

et al. 2024

J. Med. Chem.

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show abstract

Emerging roles of cohesin-STAG2 in cancer

Scott,

Al Ayadi,

Epeslidou

et al. 2024

Oncogene

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Small molecule ATM inhibitors as potential cancer therapy: a patent review (2003–present)

Ivanenkov,

Malyshev,

Malyshev

et al. 2024

Expert Opinion on Therapeutic Patents

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STAG2 Regulates Homologous Recombination Repair and Sensitivity to ATM Inhibition

Cited by 3 publications

References 52 publications

Small Molecular Inhibitors That Target ATM for Drug Discovery: Current Research and Potential Prospective

Small Molecular Inhibitors That Target ATM for Drug Discovery: Current Research and Potential Prospective

Emerging roles of cohesin-STAG2 in cancer

Small molecule ATM inhibitors as potential cancer therapy: a patent review (2003–present)

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