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Abstract
The key gluconeogenic enzyme fructose-1,6-bisphosphatase (FBPase) is induced during glucose starvation. After the addition of glucose, inactivated FBPase is selectively targeted to a novel type of Vid (vacuolar import and degradation) vesicle and then to the vacuole for degradation. To identify proteins involved in this pathway, we screened various libraries for mutants that failed to degrade FBPase. Via these approaches, subunits of the vacuolar H+ ATPase (V-ATPase) have been identified repeatedly. The VATPase has established roles in endocytosis, sorting of carboxypeptidase Y and homotypic vacuole fusion. Here, we show that Stv1p, Vph1p, and other subunits of the VATPase are required for FBPase degradation. VPH1 and V0 domain subunits such as Vma3p were required for both Vid vesicle and vacuole function, as determined by an in vitro fusion assay. However, STV1 was only required for the proper function of the Vid vesicles. We also show that the V1 domain participates in the Vid vesicle to vacuoletrafficking step, since most of the V1 subunits are necessary for Vid vesicle-vacuole fusionto occur. The V0 and V1 domains are assembled following a glucose shift and theassembly is independent of protein kinase A and RAV genes. Assembly of the V0 complexis necessary for FBPase trafficking, since mutants that block the assembly and transport ofV0 out of the ER were defective in FBPase degradation.