Phosphorylation activates Chk1 and is required for checkpoint-mediated cell cycle arrest

Holly Capasso, Carmela Palermo, Shanhong Wan, Hui Rao, Ulrik P. John, Matthew J. O'Connell, Nancy C. Walworth

Research output: Contribution to journalReview articlepeer-review

123 Scopus citations

Abstract

In the fission yeast Schizosaccharomyces pombe, the protein kinase Chk1 has an essential role in transducing a delay signal to the cell cycle machinery in the presence of DNA damage. Fission yeast cells lacking the chk1 gene do not delay progression of the cell cycle in response to damage and are thus sensitive to DNA damaging agents. We have previously shown that Chk1 is phosphorylated following DNA damage induced by a variety of agents and that this is dependent on the integrity of the DNA damage checkpoint pathway, including Rad3, the ATR homolog. Through a combination of mutagenesis and phosphospecific antibodies, we have shown that serine at position 345 (S345) is phosphorylated in vivo in response to DNA damage, and that S345 phosphorylation is required for an intact checkpoint response. We have developed a kinase assay for Chk1, and have shown that basal Chk1 kinase activity is increased in response to DNA damage and that this increase, but not the basal activity, is dependent on S345. Furthermore, we show that S345 phosphorylation is required for Chk1 to associate with Rad24, a 14-3-3 protein, upon DNA damage. These results are consistent with a model whereby Chk1 phosphorylation results in increased Chk1 kinase activity that is necessary for both checkpoint delay and cellular survival following damage to the genome. These data are similar to observations made in mammalian cells and Xenopus oocyte extracts, suggesting that mechanisms leading to Chk1 activation have been conserved in evolution.

Original languageEnglish (US)
Pages (from-to)4555-4564
Number of pages10
JournalJournal of cell science
Volume115
Issue number23
DOIs
StatePublished - Dec 1 2002

All Science Journal Classification (ASJC) codes

  • Cell Biology

Keywords

  • Cell cycle
  • Checkpoint
  • Chk1
  • DNA damage

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