Abstract
Protein phosphatases play an important role in vesicular trafficking and membrane fusion processes. The type 1 phosphatase Glc7p and its regulatory subunit Reg1p were identified as required components in the glucose-induced targeting of the key gluconeogenic enzyme fructose-1,6-bisphosphatase (FBPase) to the vacuole for degradation. The interaction of Reg1p with Glc7p was important for the transport of FBPase from intermediate vacuole import and degradation (Vid) vesicles to vacuoles. The glc7-T152K mutant strain exhibited a reduced Reg1p binding along with defects in FBPase degradation and Vid vesicle trafficking to the vacuole. In this mutant, Vid vesicles were the most defective components, whereas the vacuole was also defective. Shp1p and Glc8p regulate Glc7p phosphatase activity and are required for FBPase degradation. In the Deltashp1 and Deltaglc8 strains, Reg1p-Glc7p interaction was not affected, suggesting that phosphatase activity is also necessary for FBPase degradation. Similar to those seen in the glc7-T152K mutant, the Deltashp1 and Deltaglc8 mutants exhibited severely defective Vid vesicles, but partially defective vacuoles. Taken together, our results suggest that Reg1p-Glc7p interaction and Glc7p phosphatase activity play a required role in the Vid vesicle to vacuole-trafficking step along the FBPase degradation pathway.
Highlights
Regulation of the protein degradation process plays an essential role in cells
Our results suggest that Reg1p-Glc7p interaction and Glc7p phosphatase activity play a required role in the vacuole import and degradation (Vid) vesicle to vacuoletrafficking step along the FBPase degradation pathway
REG1 Is Required for FBPase Degradation—We have established a model for the FBPase degradation pathway that consists of at least two steps
Summary
Proteins, or proteins that are no longer required for a specific function Along these lines, certain gluconeogenic enzymes are essential when yeast are grown in poor carbon sources, but they are rapidly inactivated when cells are replenished with fresh glucose [9, 10]. Following FBPase import into Vid vesicles, this protein is delivered to the vacuole for degradation via a Vid24p-, Ypt7p-, and SNARE-mediated process [21]. Glc7p is the catalytic subunit of the protein phosphatase type 1 (PP1) and plays a critical role in several cellular trafficking events, including homotypic vacuole fusion, endoplasmic reticulum-to-Golgi transport and endocytic transport [22].
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