Yol082p, a novel CVT protein involved in the selective targeting of aminopeptidase I to the yeast vacuole.

The yeast vacuolar enzyme aminopeptidase I (API) is synthesized in the cytoplasm as a precursor (pAPI). Upon its assembly into dodecamers, pAPI is wrapped by double-membrane saccular structures for its further transport within vesicles that fuse with the vacuolar membrane and release their content in the vacuolar lumen. Targeting of API to the vacuole occurs by two alternative transport routes, the cvt and the autophagy pathways, which although mechanistically similar specifically operate under vegetative growth or nitrogen starvation conditions, respectively. We have studied the role of Yol082p, a protein identified by its ability to interact with API, in the transport of its precursor to the vacuole. We show that Yol082p interacts with mature API, an interaction that is strengthened by the amino extension of the API protein. Yol082p is required for targeting of pAPI to the vacuole, both under growing and short term nitrogen starvation conditions. Absence of Yol082p does not impede the assembly of pAPI into dodecamers, but precludes the enclosure of pAPI within transport vesicles. Microscopy studies show that during vegetative growth Yol082p is distributed between a cytoplasmic pool and a variable number of 0.13--0.27-microm round, mobile structures, which are no longer observed under conditions of nitrogen starvation, and become larger in cells expressing the inactive Yol082 Delta C32p, or lacking Apg12p. In contrast to the autophagy mutants involved in API transport, a Delta yol082 strain does not lose viability under nitrogen starvation conditions, indicating normal function of the autophagy pathway. The data are consistent with a role of Yol082p in an early step of the API transport, after its assembly into dodecamers. Because Yol082p fulfills the functional requisites that define the CVT proteins, we propose to name it Cvt19.

Targeting of aminopeptidase I to the yeast vacuole is mediated by Ssa1p, a cytosolic member of the 70-kDa stress protein family.

The two cytosolic members of the highly conserved 70-kDa stress protein family, Ssa1p and Ssa2p, were specifically retained by the prepro-NH(2) extension of the vacuolar aminopeptidase I precursor (pAPI) conjugated to agarose (Sulfolink). A temperature-sensitive mutant strain a1(ts)a234 (ssa1(ts) ssa2 ssa3 ssa4), when incubated at the restrictive temperature, was able to assemble the API precursor into dodecamers, but failed to pack pAPI into vesicles and to convert it into mature API (mAPI), a process that occurs in the vacuole. Altogether these results indicate that Ssa1p mediates the targeting of pAPI to the vacuole.

The prepropeptide of vacuolar aminopeptidase I is necessary and sufficient to target the fluorescent reporter protein GFP to the vacuole of yeast by the Ccvt pathway.

We have studied the capacity of the prepro amino extension of vacuolar protease leucine aminopeptidase I (API) to target the fluorescent reporter protein GFP to the vacuole of yeast. The preproGFP chimera constructed by extending the amino end of GFP with the prepro-part of API is rapidly degraded in both wild-type WCG cells and WCG 11/21a cells deficient in the proteasome. In contrast, the chimera expressed in WCG-PP cells deficient in both proteasome activity and vacuolar proteinase A accumulates in the vacuole, where it remains stable. Replacement of Gly by Ile-7, a substitution that prevents folding of the pre-part into an amphipathic helix and inhibits the targeting of the API precursor to the vacuole, inhibits the targeting of preproGFP to the vacuole. The separated pre- and pro-parts of the API precursor do not target GFP to the vacuole. Targeting of preproGFP to the vacuole is independent of its levels of expression, as the fluorescent protein localizes to the vacuole in cells expressing the protein under the control of both the GAL 1/10 or the API promoter. The preproGFP expressed under both promoters is recovered as monomers from cytosolic cell extracts. PreproGFP expressed under the API promoter is packed into cytoplasmic bodies that penetrate into the vacuolar lumen to release the protein. Altogether our results show that the prepro-part of the API precursor is necessary and sufficient to target the green fluorescent reporter protein to the vacuole.