Abstract
Isogenic cells can manifest distinct cellular fates for a single stress, however the nongenetic mechanisms driving such fates remain poorly understood. Here, we implement a robust multi-channel live-cell imaging approach to uncover noncanonical factors governing cell fate. We show that in response to acute glucose removal (AGR), budding yeast undergo distinct fates becoming either quiescent or senescent. Senescent cells fail to resume mitotic cycles following glucose replenishment but remain responsive to nutrient stimuli. Whereas quiescent cells manifest starvation-induced adaptation, senescent cells display perturbed endomembrane trafficking and defective nucleus-vacuole junction (NVJ) expansion. Surprisingly, we also show senescence occurs in the absence of lipid droplets. Importantly, we identify the nutrient-sensing linked kinase Rim15 as a key biomarker that predicts cell fates before AGR stress. We propose that isogenic yeast challenged with acute nutrient shortage contain determinants that influence their post-stress fate, and demonstrate that specific nutrient signaling, stress-response, endomembrane trafficking, and inter-organelle tether biomarkers are early indicators for long-term fate outcomes.
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