Evidence of Antagonistic Regulation of Restart from G₁ Delay in Response to Osmotic Stress by the Hog1 and Whi3 in Budding Yeast

Abstract

Hog1 of Saccharomyces cerevisiae is activated by hyperosmotic stress, and this leads to cell-cycle delay in G₁, but the mechanism by which cells restart from G₁ delay remains elusive. We found that Whi3, a negative regulator of G₁ cyclin, counteracted Hog1 in the restart from G₁ delay caused by osmotic stress. We have found that phosphorylation of Ser-568 in Whi3 by RAS/cAMP-dependent protein kinase (PKA) plays an inhibitory role in Whi3 function. In this study we found that the phosphomimetic Whi3 S568D mutant, like the Δwhi3 strain, slightly suppressed G₁ delay of Δhog1 cells under osmotic stress conditions, whereas the non-phosphorylatable S568A mutation of Whi3 caused prolonged G₁ arrest of Δhog1 cells. These results indicate that Hog1 activity is required for restart from G₁ arrest under osmotic stress conditions, whereas Whi3 acts as a negative regulator for this restart mechanism.