Critical role of SMG7 in activation of the ATR-CHK1 axis in response to genotoxic stress

CHK1 is a crucial DNA damage checkpoint kinase and its activation, which requires ATR and RAD17, leads to inhibition of DNA replication and cell cycle progression. Recently, we reported that SMG7 stabilizes and activates p53 to induce G 1 arrest upon DNA damage; here we show that SMG7 plays a critic...

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Veröffentlicht in:Scientific reports 2021-04, Vol.11 (1), p.7502-18, Article 7502
Hauptverfasser: Ho, Kathleen, Luo, Hongwei, Zhu, Wei, Tang, Yi
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Sprache:eng
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Zusammenfassung:CHK1 is a crucial DNA damage checkpoint kinase and its activation, which requires ATR and RAD17, leads to inhibition of DNA replication and cell cycle progression. Recently, we reported that SMG7 stabilizes and activates p53 to induce G 1 arrest upon DNA damage; here we show that SMG7 plays a critical role in the activation of the ATR-CHK1 axis. Following genotoxic stress, SMG7 -null cells exhibit deficient ATR signaling, indicated by the attenuated phosphorylation of CHK1 and RPA32, and importantly, unhindered DNA replication and fork progression. Through its 14-3-3 domain, SMG7 interacts directly with the Ser635-phosphorylated RAD17 and promotes chromatin retention of the 9-1-1 complex by the RAD17-RFC, an essential step to CHK1 activation. Furthermore, through maintenance of CHK1 activity, SMG7 controls G 2 -M transition and facilitates orderly cell cycle progression during recovery from replication stress. Taken together, our data reveals SMG7 as an indispensable signaling component in the ATR-CHK1 pathway during genotoxic stress response.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-021-86957-x