SMK-1/PPH-4.1 mediated silencing of the CHK-1 response to DNA damage in early C. elegans embryos

doi:10.1083/jcb.200705182

Published online October 1, 2007
doi:10.1083/jcb.200705182
The Journal of Cell Biology, Vol. 179, No. 1, 41-52
The Rockefeller University Press, 0021-9525 $30.00
© 2007 Kim et al.

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Article

SMK-1/PPH-4.1–mediated silencing of the CHK-1 response to DNA damage in early C. elegans embryos

Seung-Hwan Kim¹, Antonia H. Holway¹, Suzanne Wolff², Andrew Dillin², and W. Matthew Michael¹

¹ The Biological Laboratories, Department of Molecular and Cellular Biology, Harvard University, Cambridge, MA 02138
² Molecular and Cell Biology Laboratory, Salk Institute for Biological Studies, La Jolla, CA 92037

Correspondence to W. Matthew Michael: mmichael{at}fas.harvard.edu

During early embryogenesis in Caenorhabditis elegans, the ATL-1–CHK-1(ataxia telangiectasia mutated and Rad3 related–Chk1)checkpoint controls the timing of cell division in the futuregerm line, or P lineage, of the animal. Activation of the CHK-1pathway by its canonical stimulus DNA damage is actively suppressedin early embryos so that P lineage cell divisions may occuron schedule. We recently found that the rad-2 mutation alleviatesthis checkpoint silent DNA damage response and, by doing so,causes damage-dependent delays in early embryonic cell cycleprogression and subsequent lethality. In this study, we reportthat mutations in the smk-1 gene cause the rad-2 phenotype.SMK-1 is a regulatory subunit of the PPH-4.1 (protein phosphatase4) protein phosphatase, and we show that SMK-1 recruits PPH-4.1to replicating chromatin, where it silences the CHK-1 responseto DNA damage. These results identify the SMK-1–PPH-4.1complex as a critical regulator of the CHK-1 pathway in a developmentallyrelevant context.

Abbreviations used in this paper: ATR, ataxia telangiectasiamutated and Rad3 related; FOXO, forkhead box O; MMS, methylmethanesulphonate; PP4, protein phosphatase 4; RNR, ribonucleotidereductase; SNP, single nucleotide polymorphism.

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