Abstract
The evidence that nuclear proteins can be degraded by cytosolic proteasomes has received considerable experimental support. However, the presence of proteasome subunits in the nucleus also suggests that protein degradation could occur within this organelle. We determined that Sts1 can target proteasomes to the nucleus and facilitate the degradation of a nuclear protein. Specific sts1 mutants showed reduced nuclear proteasomes at the nonpermissive temperature. In contrast, high expression of Sts1 increased the levels of nuclear proteasomes. Sts1 targets proteasomes to the nucleus by interacting with Srp1, a nuclear import factor that binds nuclear localization signals. Deletion of the NLS in Sts1 prevented its interaction with Srp1 and caused proteasome mislocalization. In agreement with this observation, a mutation in Srp1 that weakened its interaction with Sts1 also reduced nuclear targeting of proteasomes. We reported that Sts1 could suppress growth and proteolytic defects of rad23Δ rpn10Δ. We show here that Sts1 suppresses a previously undetected proteasome localization defect in this mutant. Taken together, these findings explain the suppression of rad23Δ rpn10Δ by Sts1 and suggest that the degradation of nuclear substrates requires efficient proteasome localization.
Highlights
Rad23 is a substrate shuttle factor that can transfer ubiquitinated proteins to the proteasome [9, 10], whereas Rpn10 is a major proteasome receptor for multiubiquitinated proteins [11,12,13,14,15]
Protein degradation appears to be affected by the level of nuclear proteasomes, which is a consequence of the interaction between Srp1 and Sts1
Proteasomes Are Structurally Intact in sts1-2—We showed previously that proteasomes in sts1-2 failed to efficiently bind multiubiquitinated proteins [17]
Summary
Yeast Strains and Plasmids—Yeast strains harboring mutations in SRP1 were provided by Drs P. DNA templates were sequenced, and the mutations were verified (srp S116F; srp E145K). Strains containing mutations in STS1 were provided by Dr F.
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