Caffeine-Mediated Override of Checkpoint Controls: A Requirement for rhp6 (Schizosaccharomyces pombe)

Caffeine-Mediated Override of Checkpoint Controls: A Requirement for rhp6 (Schizosaccharomyces pombe)

Roy Rowley^a and Jun Zhang^a
^a Department of Radiation Oncology, University of Utah Medical Center, Salt Lake City, Utah 84132

Corresponding author: Roy Rowley, Experimental Oncology, Department of Radiation Oncology, University of Utah Medical Center, 50 North Medical Drive, Salt Lake City, UT 84132., roy.rowley{at}hsc.utah.edu (E-mail)

Communicating editor: P. G. YOUNG

Cells exposed to inhibitors of DNA synthesis or suffering DNAdamage are arrested or delayed in interphase through the actionof checkpoint controls. If the arrested cell is exposed to caffeine,relatively normal cell cycle progression is resumed and, asobserved in checkpoint control mutants, loss of checkpoint controlactivity is associated with a reduction in cell viability. Toaddress the mechanism of caffeine's action on cell progression,fission yeast mutants that take up caffeine but are not sensitizedto hydroxyurea (HU) by caffeine were selected. Mutants 788 and1176 are point mutants of rhp6, the fission yeast homolog ofthe budding yeast RAD6 gene. Mutant rhp6-788 is slightly HUsensitive, radiosensitive, and exhibits normal checkpoint responsesto HU, radiation, or inactivation of DNA ligase. However, theaddition of caffeine does not override the associated cell cycleblocks. Both point and deletion mutations show synthetic lethalityat room temperature with temperature-sensitive mutations incyclin B (cdc13-117) or the phosphatase cdc25 (cdc25-22). Theseobservations suggest that the rhp6 gene product, a ubiquitin-conjugatingenzyme required for DNA damage repair, promotes entry to mitosisin response to caffeine treatment.

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