Abstract
Macroautophagy is the process of intracellular bulk protein degradation induced by nutrient starvation and is generally considered to be a nonselective degradation of cytosolic enzymes and organelles. However, it remains a possibility that some proteins may be preferentially degraded by autophagy. In this study, we have performed a systematic analysis on the substrate selectivity of autophagy in yeast, Saccharomyces cerevisiae, using two-dimensional PAGE. We performed a differential screen on wild-type and Deltaatg7/apg7 autophagy-deficient cells and found that cytosolic acetaldehyde dehydrogenase (Ald6p) decreased under nitrogen starvation. As assessed by immunoblot, Ald6p was reduced by greater than 82% after 24 h of nitrogen starvation. This reduction was dependent on Atg/Apg proteins and vacuolar proteases but was not dependent on the proteasome or the cytoplasm to vacuole targetting (Cvt) pathway. Using pulse-chase and subcellular fractionation, we have also demonstrated that Ald6p was preferentially transported to vacuoles via autophagosomes. Deltaatg7 Deltaald6 double mutant cells were able to maintain higher rates of viability than Deltaatg7 cells under nitrogen starvation, and Ald6p-overexpressing cells were not able to maintain high rates of viability. Furthermore, the Ald6p(C306S) mutant, which lacks enzymatic activity, had viability rates similar to Deltaald6 cells. Ald6p enzymatic activity may be disadvantageous for survival under nitrogen starvation; therefore, yeast cells may preferentially eliminate Ald6p via autophagy.
Highlights
Macroautophagy is the process of intracellular bulk protein degradation induced by nutrient starvation and is generally considered to be a nonselective degradation of cytosolic enzymes and organelles
We have performed a systematic analysis on the substrate selectivity of autophagy in yeast, Saccharomyces cerevisiae, using two-dimensional PAGE
Screen for Proteins Reduced under Nitrogen Starvation—We investigated the expression profiles of soluble proteins before and after nitrogen starvation using two-dimensional PAGE
Summary
MAT␣ his3⌬200 leu112 lys801 trp1⌬901 ura suc2⌬9 SEY6210; ⌬atg7::HIS3 SEY6210; ⌬atg7::HIS3 ⌬ald6::kanMX4 SEY6210; ⌬atg7::HIS3 ⌬ald4::kanMX4 SEY6210; ⌬atg17::HIS3 SEY6210; ⌬pep4::LEU2 SEY6210; ⌬pep4::LEU2 ⌬ald6::ALD6-GFP SEY6210; ⌬pep4::LEU2 ⌬atg7::HIS3 ⌬ald6::ALD6-GFP SEY6210; ⌬ald6::kanMX4 SEY6210; ⌬ald4::kanMX4 SEY6210; ⌬atg11::URA3 SEY6210; ⌬vid22::kanMX4 SEY6210; ⌬ypt7::LEU2 SEY6210; ⌬ypt7::HIS3 ⌬atg1::LEU2 MATa leu112 ura his WCG4a; pre. Ref. 40 Ref. This study This study This study Ref. This study This study This study This study This study This study Ref. This study Ref. 28 Ref. 28. The conversion of acetaldehyde to acetate, which is a key intermediate during fermentation of sugars and growth on ethanol and are important for acetyl-CoA production. Ald6p is the only cytosolic acetaldehyde dehydrogenase in the yeast cell. We demonstrate here that Ald6p is degraded preferentially by autophagy and that reduction of Ald6p may improve viability rates under nitrogen starvation
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