Glutathione depletion leads to delayed growth stasis in Saccharomyces cerevisiae: evidence of a partially overlapping role for thioredoxin.

Disruption of the first enzyme of glutathione biosynthesis in both Saccharomyces cerevisiae and Schizosaccharomyces pombe leads to a glutathione auxotrophy phenotype on plates. However, growth experiments in liquid medium revealed that the cessation of growth resulting from glutathione depletion in these yeasts is very delayed in S. cerevisiae compared to S. pombe. Glutathione metabolism was investigated to understand this delayed growth stasis in S. cerevisiae. The assimilation of reduced and oxidized glutathione, the intracellular storage pools of glutathione and the turnover of this compound were investigated and found to be similar in both yeasts. A possible overlapping role of intracellular thioredoxin in causing delayed stasis was studied. Yeast thioredoxin was overexpressed in S. cerevisiae and was found to partially relieve the dependence of S. cerevisiae glutathione auxotrophs on extracellular glutathione in glucose-grown cultures, as well as in glycerol-grown cultures where conditions of increased glutathione requirements exists in the cell. By partially, but not completely, compensating for glutathione deficiency in this yeast, thioredoxin thus appeared to be the major factor that was causing the delayed growth stasis following glutathione depletion in this yeast.