Transfer of Ho Endonuclease and Ufo1 to the Proteasome by the UbL-UbA Shuttle Protein, Ddi1, Analysed by Complex Formation In Vitro

Sharon Herrmann,Dina Raveh,Anya Bakhrat,Olga Voloshin,Jeffrey L Brodsky

doi:10.1371/journal.pone.0039210

Sharon Herrmann, Dina Raveh + Show 3 more

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https://doi.org/10.1371/journal.pone.0039210

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Journal: PLoS ONE	Publication Date: Jul 16, 2012
Citations: 17	License type: CC BY 4.0

Affiliation: Ben-Gurion University of the Negev

Abstract

The F-box protein, Ufo1, recruits Ho endonuclease to the SCFUfo1 complex for ubiquitylation. Both ubiquitylated Ho and Ufo1 are transferred by the UbL-UbA protein, Ddi1, to the 19S Regulatory Particle (RP) of the proteasome for degradation. The Ddi1-UbL domain binds Rpn1 of the 19S RP, the Ddi1-UbA domain binds ubiquitin chains on the degradation substrate. Here we used complex reconstitution in vitro to identify stages in the transfer of Ho and Ufo1 from the SCFUfo1 complex to the proteasome. We report SCFUfo1 complex at the proteasome formed in the presence of Ho. Subsequently Ddi1 is recruited to this complex by interaction between the Ddi1-UbL domain and Ufo1. The core of Ddi1 binds both Ufo1 and Rpn1; this interaction confers specificity of SCFUfo1 for Ddi1. The substrate-shield model predicts that Ho would protect Ufo1 from degradation and we find that Ddi1 binds Ho, Ufo1, and Rpn1 simultaneously forming a complex for transfer of Ho to the 19S RP. In contrast, in the absence of Ho, Rpn1 displaces Ufo1 from Ddi1 indicating a higher affinity of the Ddi1-UbL for the 19S RP. However, at high Rpn1 levels there is synergistic binding of Ufo1 to Ddi1 that is dependent on the Ddi1-UbA domain. Our interpretation is that in the absence of substrate, the Ddi1-UbL binds Rpn1 while the Ddi1-UbA binds ubiquitin chains on Ufo1. This would promote degradation of Ufo1 and disassembly of SCFUfo1 complexes.

Highlights

The Ubiquitin-proteasome system has a major role in regulation of cellular processes, in particular the cell cycle and many signaling pathways [1,2]
Complex reconstitution in vitro indicated that SCFUfo1 complexes that contain their substrate, Ho, are associated with the 19S Regulatory particle (RP). These complexes can assemble in the absence of Ddi1, in experiments with extracts from w.t. cells Ddi1 is found in association with the SCFUfo1-Ho-19S RP complex
Our interpretation is that Ddi1 is recruited to preformed SCFUfo1Ho-19S RP complex

Summary

Introduction

The Ubiquitin-proteasome system has a major role in regulation of cellular processes, in particular the cell cycle and many signaling pathways [1,2]. Proteins targeted for degradation are conjugated to ubiquitin (Ub) by a cascade of enzymes, an E1 Ub activatingand E2 Ub conjugating enzyme, and an E3 Ub ligase responsible for substrate identification [3]. Ub chains comprising at least four K48-linked Ub molecules are recognized by the 19S Regulatory particle (RP) of the proteasome, either by an endogenous 19S RP subunit [5,6,7], or by a member of the UbLUbA protein family. UbL-UbA proteins bind specific 19S RP subunits through their Ub-like (UbL) domain and K48-Ub chains on the substrate through their Ub-associated (UbA) domain. The yeast family of UbL-UbA proteins comprises Rad, Dsk, and Ddi, and each family member participates in the degradation of a range of substrates either by itself, or as a Rad23-Dsk pair (reviewed in [8])

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