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The environmental stress response regulates ribosome content in cell cycle-arrested S. cerevisiae

Allegra Terhorst, Arzu Sandikci, Charles A. Whittaker, Tamás Szórádi, Liam J. Holt, Gabriel E. Neurohr, Angelika Amon

2023Frontiers in Cell and Developmental Biology21 citationsDOIOpen Access PDF

Abstract

Prolonged cell cycle arrests occur naturally in differentiated cells and in response to various stresses such as nutrient deprivation or treatment with chemotherapeutic agents. Whether and how cells survive prolonged cell cycle arrests is not clear. Here, we used S. cerevisiae to compare physiological cell cycle arrests and genetically induced arrests in G1-, meta- and anaphase. Prolonged cell cycle arrest led to growth attenuation in all studied conditions, coincided with activation of the Environmental Stress Response (ESR) and with a reduced ribosome content as determined by whole ribosome purification and TMT mass spectrometry. Suppression of the ESR through hyperactivation of the Ras/PKA pathway reduced cell viability during prolonged arrests, demonstrating a cytoprotective role of the ESR. Attenuation of cell growth and activation of stress induced signaling pathways also occur in arrested human cell lines, raising the possibility that the response to prolonged cell cycle arrest is conserved.

Topics & Concepts

Cell biologyEnvironmental stressSaccharomyces cerevisiaeFight-or-flight responseCell cycleStress (linguistics)ChemistryBiologyCellGeneticsYeastGeneEcologyPhilosophyLinguisticsRNA modifications and cancerRNA and protein synthesis mechanismsFungal and yeast genetics research
The environmental stress response regulates ribosome content in cell cycle-arrested S. cerevisiae | Litcius