Ida B Larsen scite author profile

SummaryThe ubiquitin-proteasome system is the major pathway for protein degradation in eukaryotic cells. Proteins to be degraded are conjugated to ubiquitin chains that act as recognition signals for the 26S proteasome. The proteasome subunits Rpn10 and Rpn13 are known to bind ubiquitin, but genetic and biochemical data suggest the existence of at least one other substrate receptor. Here, we show that the phylogenetically conserved proteasome subunit Dss1 (Sem1) binds ubiquitin chains linked by K63 and K48. Atomic resolution data show that Dss1 is disordered and binds ubiquitin by binding sites characterized by acidic and hydrophobic residues. The complementary binding region in ubiquitin is composed of a hydrophobic patch formed by I13, I44, and L69 flanked by two basic regions. Mutations in the ubiquitin-binding site of Dss1 cause growth defects and accumulation of ubiquitylated proteins.

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A Two-step Protein Quality Control Pathway for a Misfolded DJ-1 Variant in Fission Yeast

Mathiassen

Larsen

Poulsen

et al. 2015

Journal of Biological Chemistry

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Background: A mutation, L166P, in DJ-1, is linked to Parkinson disease. Results: The Sdj1-L169P fission yeast orthologue of DJ1-L166P is misfolded, associated with chaperones, and degraded via two ubiquitin-proteasome dependent pathways. Conclusion: Sdj1-L169P is subject to a two-step degradation pathway. Significance: Mapping the degradation pathways for misfolded proteins is important for our basic understanding of protein quality control in health and disease.

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Nedd8 processing enzymes in Schizosaccharomyces pombe

et al. 2013

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BackgroundConjugation of the ubiquitin-like modifier Nedd8 to cullins is critical for the function of SCF-type ubiquitin ligases and thus facilitates ubiquitin conjugation and ultimately degradation of SCF substrates, including several cell cycle regulators. Like ubiquitin, Nedd8 is produced as a precursor that must first be processed before it becomes active. In Saccharomyces cerevisiae this is carried out exclusively by the enzyme Yuh1.ResultsHere we show that in the fission yeast, Schizosaccharomyces pombe, the Yuh1 orthologue, Uch1, is not the sole Nedd8 processing enzyme. Instead it appears that deubiquitylating enzymes can efficiently process the Nedd8 precursor in vivo.ConclusionsSeveral enzymes contribute to Nedd8 precursor processing including a number of deubiquitylating enzymes.

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Human ASPL/TUG interacts with p97 and complements the proteasome mislocalization of a yeast ubx4 mutant, but not the ER-associated degradation defect

et al. 2014

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BackgroundIn mammalian cells, ASPL is involved in insulin-stimulated redistribution of the glucose transporter GLUT4 and assembly of the Golgi apparatus. Its putative yeast orthologue, Ubx4, is important for proteasome localization, endoplasmic reticulum-associated protein degradation (ERAD), and UV-induced degradation of RNA polymerase.ResultsHere, we show that ASPL is a cofactor of the hexameric ATPase complex, known as p97 or VCP in mammals and Cdc48 in yeast. In addition, ASPL interacts in vitro with NSF, another hexameric ATPase complex. ASPL localizes to the ER membrane. The central area in ASPL, containing both a SHP box and a UBX domain, is required for binding to the p97 N-domain. Knock-down of ASPL does not impair degradation of misfolded secretory proteins via the ERAD pathway. Deletion of UBX4 in yeast causes cycloheximide sensitivity, while ubx4 cdc48-3 double mutations cause proteasome mislocalization. ASPL alleviates these defects, but not the impaired ERAD.ConclusionsIn conclusion, ASPL and Ubx4 are homologous proteins with only partially overlapping functions. Both interact with p97/Cdc48, but while Ubx4 is important for ERAD, ASPL appears not to share this function.

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Ida B Larsen

Dss1 Is a 26S Proteasome Ubiquitin Receptor

A Two-step Protein Quality Control Pathway for a Misfolded DJ-1 Variant in Fission Yeast

Nedd8 processing enzymes in Schizosaccharomyces pombe

Human ASPL/TUG interacts with p97 and complements the proteasome mislocalization of a yeast ubx4 mutant, but not the ER-associated degradation defect

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