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Citation Alhaj Sulaiman A, Ali R, Aouida M, Moovarkumudalvan B, Ramotar D. The histone H2B Arg95 residue links the pheromone response pathway to rapamycin-induced G(1) arrest in yeast. Scientific reports, 2022.
PubMed ID 35705668
Short Description The histone H2B Arg95 residue links the pheromone response pathway to rapamycin-induced G(1) arrest in yeast.
# of Conditions 12
Full Description 1316625150_help Rapamycin is an immunosuppressant used for treating many types of diseases such as kidney carcinomas. In yeast, rapamycin inhibits the TORC1 kinase signaling pathway causing rapid alteration in gene expression and ultimately cell cycle arrest in G(1) through mechanisms that are not fully understood. Herein, we screened a histone mutant collection and report that one of the mutants, H2B R95A, is strikingly resistant to rapamycin due to a defective cell cycle arrest. We show that the H2B R95A causes defects in the expression of a subset of genes of the pheromone pathway required for alpha factor-induced G(1) arrest. The expression of the STE5 gene and its encoded scaffold protein Ste5, required for the sequential activation of the MAPKs of the pheromone pathway, is greatly reduced in the H2B R95A mutant. Similar to the H2B R95A mutant, cells devoid of Ste5 are also resistant to rapamycin. Rapamycin-induced G(1) arrest does not involve detectable phosphorylation of the MAPKs, Kss1, and Fus3, as reported for alpha factor-induced G(1) arrest. However, we observed a sharp induction of the G(1) cyclin Cln2 (~ 3- to 4-fold) in the ste5Delta mutant within 30 min of exposure to rapamycin. Our data provide a new insight whereby rapamycin signaling via the Torc1 kinase may exploit the pheromone pathway to arrest cells in the G(1) phase.
Tags 1316625150_help
chemical stimulus