Oxidative stress and chronological aging in glycogen-phosphorylase-deleted yeast

CRISTIÁN FAVRE (CORRESP. AUTH.); PABLO S. AGUILAR; MARÍA CRISTINA CARRILLO

FREE RADICAL BIOLOGY AND MEDICINE

Año: 2008 p. 1446 - 1456

0891-5849

Chronological aging in yeast resembles aging in mammalian, postmitotic tissues. Such chronological aging begins with entrance into the stationary phase after the nutrients are exhausted. Many changes in metabolism take place at this moment, and survival in this phase strongly depends on oxidative-stress resistance. In this study, hypo- and hyperglycogenic phenotypes of Saccharomyces cerevisiae strains with deletions of carbohydrate-metabolism enzymes were selected, and a comparison of their chronological longevities was made. Stress sensitivity, ROS, and apoptosis markers during aging were analyzed in the emerged candidates. Among the strains that accumulated greater amounts of glycogen, the deletion of glycogen phosphorylase, gph1Δ, was unique in showing a shortened life span, stress intolerance, and higher levels of ROS during its survival. The transcription of superoxide dismutase genes during survival was three to fourfold lower in gph1Δ. Extra copies of SOD1/2 counteracted the stress sensitivity and the accelerated aging of gph1Δ. In conclusion, the lack of gph1 produced a rapidly aging strain, which could be attributed, at least in part, to the weakened stress resistance associated with the decreased expression of both SODs.Gph1p seems to be a candidate in a scenario that could link early metabolic changes with other targets of the stress response during stationary-phase survival.