PMID: 15367709Sep 16, 2004Paper

CHK1 and CHK2 are differentially involved in mismatch repair-mediated 6-thioguanine-induced cell cycle checkpoint responses

Molecular Cancer Therapeutics
T YanT J Kinsella

Abstract

The DNA mismatch repair (MMR) system plays an important role in mediating a G2-M checkpoint arrest and subsequent cell death following treatment with a variety of chemotherapeutic agents. In this study, using 6-thioguanine (6-TG) as a mismatch-inducing drug, we examine the role of ataxia telangiectasia mutated (ATM)/CHK2 and ATM and Rad-3 related (ATR)/CHK1 signaling pathways in MMR-mediated cell cycle responses in MMR-proficient human colorectal cancer RKO cells. We show that, in response to 6-TG (3 micromol/L x 24 hours), activating phosphorylation of CHK1 at Ser317 [CHK1(pS317)] and CHK2 at Thr68 [CHK2(pT68)] are induced differentially during a prolonged course (up to 6 days) of MMR-mediated cell cycle arrests following 6-TG treatment, with CHK1(pS317) being induced within 1 day and CHK2(pT68) being induced later. Using chemical inhibitors and small interfering RNA of the signaling kinases, we show that a MMR-mediated 6-TG-induced G2 arrest is ATR/CHK1 dependent but ATM/CHK2 independent and that ATR/CHK1 signaling is responsible for both initiation and maintenance of the G2 arrest. However, CHK2(pT68) seems to be involved in a subsequent tetraploid G1 arrest, which blocks cells that escape from the G2-M checkpoint following ...Continue Reading

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