UNIPROT:P06889 - FACTA Search

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The 26S proteasome is the central protease of the ubiquitin-dependent pathway of protein degradation. The molecule has a molecular mass of approximately 2000 kD and has a highly conserved structure in eukaryotes. The 26S proteasome is formed by a barrel-shaped 20S core complex and two polar 19S complexes. The 20S complex has C2 symmetry and is formed by four seven-membered rings of which the outer rings (alpha-type subunits) are rotated by 25.7 degrees relative to the inner rings while the inner rings (beta-type subunits) are in register. From a comparison of the activity and regulation of the 26S and 20S particles it can be deduced that the 20S particle contains the protease activity while the 19S complex contains isopeptidase, ATPase and protein unfolding activities. In this article we describe the structures of various proteasome complexes as determined by electron microscopy and discuss structural implications of their subunit sequences.
Mol Biol Rep 1995
PMID:Structural features of archaebacterial and eukaryotic proteasomes. 756 58

We previously detected in salivary gland secretions of the medicinal leech (Hirudo medicinalis) a novel enzymatic activity, endo-epsilon(gamma-Glu)-Lys isopeptidase, which cleaves isopeptide bonds formed by transglutaminase (Factor XIIIa) between glutamine gamma-carboxamide and the epsilon-amino group of lysine. Such isopeptide bonds, either within or between protein polypeptide chains are formed in many biological processes. However, before we started our work no enzymes were known to be capable of specifically splitting isopeptide bonds in proteins. The isopeptidase activity we detected was specific for isopeptide bonds. The enzyme was termed destabilase. Here we report the first purification of destabilase, part of its amino acid sequence isolation and sequencing of two related cDNAs derived from the gene family that encodes destabilase proteins, and the detection of isopeptidase activity encoded by one of these cDNAs cloned in a baculovirus expression vector. The deduced mature protein products of these cDNAs contain 115 and 116 amino acid residues, including 14 highly conserved Cys residues, and are formed from precursors containing specific leader peptides. No homologous sequences were found in public databases.
Mol Gen Genet 1996 Nov 27
PMID:Genes from the medicinal leech (Hirudo medicinalis) coding for unusual enzymes that specifically cleave endo-epsilon (gamma-Glu)-Lys isopeptide bonds and help to dissolve blood clots. 900 82

The ubiquitin fold is a versatile and widely used targeting signal that is added post-translationally to a variety of proteins. Covalent attachment of one or more ubiquitin domains results in localization of the target protein to the proteasome, the nucleus, the cytoskeleton or the endocytotic machinery. Recognition of the ubiquitin domain by a variety of enzymes and receptors is vital to the targeting function of ubiquitin. Several parallel pathways exist and these must be able to distinguish among ubiquitin, several different types of polymeric ubiquitin, and the various ubiquitin-like domains. Here we report the first molecular description of the binding site on ubiquitin for ubiquitin C-terminal hydrolase L3 (UCH-L3). The site on ubiquitin was experimentally determined using solution NMR, and site-directed mutagenesis. The site on UCH-L3 was modeled based on X-ray crystallography, multiple sequence alignments, and computer-aided docking. Basic residues located on ubiquitin (K6, K11, R72, and R74) are postulated to contact acidic residues on UCH-L3 (E10, E14, D33, E219). These putative interactions are testable and fully explain the selectivity of ubiquitin domain binding to this enzyme.
J Mol Biol 1999 Sep 03
PMID:The binding site for UCH-L3 on ubiquitin: mutagenesis and NMR studies on the complex between ubiquitin and UCH-L3. 1051 43

Mice homozygous for the s(1Acrg) deletion at the Ednrb locus arrest at embryonic day 8.5. To determine the molecular basis of this defect, we initiated positional cloning of the s(1Acrg) minimal region. The mouse Uch-L3 (ubiquitin C-terminal hydrolase L3) gene was mapped within the s(1Acrg) minimal region. Because Uch-L3 transcripts were present in embryonic structures relevant to the s(1Acrg) phenotype, we created a targeted mutation in Uch-L3 to address its role during development and its possible contribution to the s(1Acrg) phenotype. Mice homozygous for the mutation Uch-L3(Delta3-7) were viable, with no obvious developmental or histological abnormalities. Although high levels of Uch-L3 RNA were detected in testes and thymus, Uch-L3(Delta3-7) homozygotes were fertile, and no defect in intrathymic T-cell differentiation was detected. We conclude that the s(1Acrg) phenotype is either complex and multigenic or due to the loss of another gene within the region. We propose that Uch-L3 may be functionally redundant with its homologue Uch-L1.
Mol Cell Biol 2000 Apr
PMID:Expression and functional analysis of Uch-L3 during mouse development. 1071 73

Ubiquitin-specific processing proteases (UBPs) are characterized by a conserved core domain with surrounding divergent sequences, particularly at the N-terminal end. We previously cloned two isoforms of a testis UBP, UBP-t1 and UBP-t2, which contain identical core regions but distinct N termini that target the two isoforms to different subcellular locations (Lin, H., Keriel, A., Morales, C. R., Bedard, N., Zhao, Q., Hingamp, P., Lefrancois, S., Combaret, L., and Wing, S. S. (2000) Mol. Cell. Biol. 20, 6568-6578). To determine whether the N termini also influence the biochemical functions of the UBP, we expressed UBP-t1, UBP-t2, and the common core domain, UBP core, in Escherichia coli. The three isoforms cleaved branched triubiquitin at >20-fold faster rates than linear diubiquitin, suggesting that UBP-testis functions as an isopeptidase. Both N-terminal extensions inhibited the ability of UBP-core to generate free ubiquitin when linked in a peptide bond with itself, another peptide, or to small adducts. The N-terminal extension of UBP-t2 increased the ability of UBP-core to cleave branched triubiquitin. UBP-core removed ubiquitin from testis ubiquitinated proteins more rapidly than UBP-t2 and UBP-t1. Thus, UBP enzymes appear to contain a catalytic core domain, the activities and specificities of which can be modulated by N-terminal extensions. These divergent N termini can alter localization and confer multiple functions to the various members of the large UBP family.
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PMID:Divergent N-terminal sequences of a deubiquitinating enzyme modulate substrate specificity. 1127 32

The Fur4p uracil permease, like most yeast plasma membrane proteins, undergoes ubiquitin-dependent endocytosis and is then targeted to the vacuole (equivalent to the mammalian lysosome) for degradation. The cell surface ubiquitination of Fur4p is mediated by the essential Rsp5p ubiquitin ligase. Ubiquitination of Fur4p occurs on two target lysines, which receive two ubiquitin moieties linked through ubiquitin Lys63, a type of linkage (termed UbK63) different from that involved in proteasome recognition. We report that pep4 cells deficient for vacuolar protease activities accumulate vacuolar unubiquitinated Fur4p. In contrast, pep4 cells lacking the Doa4p ubiquitin isopeptidase accumulate ubiquitin-conjugated Fur4p. These data suggest that Fur4p undergoes Doa4p-dependent deubiquitination prior to vacuolar degradation. Compared to pep4 cells, pep4 doa4 cells have huge amounts of membrane-bound ubiquitin conjugates. This indicates that Doa4p plays a general role in the deubiquitination of membrane-bound proteins, as suggested by reports describing the suppression of some doa4 phenotypes in endocytosis and vacuolar protein sorting mutants. Some of the small ubiquitin-linked peptides that are a hallmark of Doa4 deficiency are not present in rsp5 mutant cells or after overproduction of a variant ubiquitin modified at Lys 63 (UbK63R). These data suggest that the corresponding peptides are degradation products of Rsp5p substrates and probably of ubiquitin conjugates carrying UbK63 linkages. Doa4p thus appears to be involved in the deubiquitination of endocytosed plasma membrane proteins, some of them carrying UbK63 linkages.
Mol Cell Biol 2001 Jul
PMID:Deubiquitination step in the endocytic pathway of yeast plasma membrane proteins: crucial role of Doa4p ubiquitin isopeptidase. 1141 28

Altered function of the ubiquitin pathway has been implicated in the etiology of neurodegeneration. For example, gracile axonal dystrophy (gad) mutant mice, which harbor a deletion within the gene encoding ubiquitin C-terminal hydrolase L1 (Uch-L1), display sensory ataxia followed by posterior paralysis and lethality. We previously showed that mice homozygous for a targeted deletion of the related Uch-L3 gene are indistinguishable from wild-type. To assess whether the two hydrolases have redundant function, we generated mice homozygous for both Uch-L1gad and Uch-L3Delta3-7. The double homozygotes weigh 30% less than single homozygotes and display an earlier onset of lethality, possibly due to dysphagia, a progressive loss in the ability to swallow food. This is consistent with histological analysis that revealed axonal degeneration of the nucleus tractus solitarius (NTS) and area postrema (AP) of the medulla. The NTS is essential for central nervous system control of swallowing. The double homozygotes also display a more severe axonal degeneration of the gracile tract of the medulla and spinal cord than had been observed in Uch-L1gad single homozygotes. In addition, degeneration of dorsal root ganglia cell bodies was detected in both the double homozygotes and Uch-L3Delta3-7 single homozygotes. Given that both Uch-L1gad and Uch-L3Delta3-7 single homozygotes display distinct degenerative defects that are exacerbated in the double homozygotes, we conclude that Uch-L1 and Uch-L3 have both separate and overlapping functions in the maintenance of neurons of the gracile tract, NTS and AP. This study is the first to successfully document dysphagia in the mouse and is a potentially valuable resource for understanding human neurodegenerative disorders that cause swallowing defects.
Hum Mol Genet 2001 Sep 01
PMID:Loss of Uch-L1 and Uch-L3 leads to neurodegeneration, posterior paralysis and dysphagia. 1155 33

Although originally discounted, hereditary factors have emerged as the focus of research in Parkinson's disease (PD). Genetic studies have identified mutations in alpha-synuclein and ubiquitin C-terminal hydrolase as rare causes of autosomal dominant PD and mutations in parkin as a cause of autosomal recessive PD. Functional characterization of the identified disease genes implicates the ubiquitin-mediated protein degradation pathway in these hereditary forms of PD and also in the more common sporadic forms of PD. Subsequent identification of further loci in familial PD and diverse genetic factors modulating the risk for sporadic PD point to substantial genetic heterogeneity in the disease. Thus, new candidate genes are expected to encode proteins either involved in ubiquitin-mediated protein degradation or sequestrated in intracytoplasmic protein aggregations. Future identification of disease genes is required to confirm this hypothesis, thereby unifying the clinical and genetic heterogeneity of PD, including the common sporadic form of the disease, by one biochemical pathway.
Trends Mol Med 2002 May
PMID:Parkinson's disease: one biochemical pathway to fit all genes? 1206 34

In S. cerevisiae, posttranslational modification by the ubiquitin-like Smt3/SUMO-1 protein is essential for survival, but functions and cellular targets for this modification are largely unknown. We find that one function associated with the Smt3/SUMO-1 isopeptidase Smt4 is to control chromosome cohesion at centromeric regions and that a key Smt3/SUMO-1 substrate underlying this function is Top2, DNA Topoisomerase II. Top2 modification by Smt3/SUMO-1 is misregulated in smt4 strains, and top2 mutants resistant to Smt3/SUMO-1 modification suppress the smt4 cohesion defect. top2 mutants display aberrant chromatid stretching at the centromere in response to mitotic spindle tension and altered chromatid reassociation following microtubule depolymerization. These results suggest Top2 modification by Smt3/SUMO-1 regulates a component of chromatin structure or topology required for centromeric cohesion.
Mol Cell 2002 Jun
PMID:The SUMO-1 isopeptidase Smt4 is linked to centromeric cohesion through SUMO-1 modification of DNA topoisomerase II. 1208 15

The Acrg minimal region is a 1.5-1.7 Mb domain defined by genetic complementation among deletions generated around Ednrb on chromosome 14 in mice. Mice homozygous for one of the deletions, Ednrb(s-1Acrg), exhibit embryonic lethality with defects associated with mesoderm development. We predicted that the region contains a single cluster of four genes that encode a TBC domain-containing protein (KIAA0603), a novel protein AK000009, the ubiquitin C-terminal hydrolase L3 (UCHL3) and an F-box/PDZ/LIM domain protein LMO7. A targeted internal deletion of Uchl3 (Uchl3(Delta3-7)) produced viable mice, eliminating this gene as a candidate for the embryonic lethality. To dissect the Acrg minimal region further, we utilized Cre-loxP-mediated chromosome engineering to generate a targeted 800 kb deletion (Lmo7(Delta800)) that removes the distal portion of the region. The deletion includes Uchl3, Lmo7 and an additional 500 kb downstream of the 3' end of Lmo7 where no genes are thought to reside. We found that approximately 40% of mice homozygous for this deletion die between birth and weaning, and are severely runted. The remaining homozygotes are viable, thus ruling out Lmo7 as a single gene candidate for the Ednrb(s-1Acrg) embryonic lethality. Both Uchl3(Delta3-7) and Lmo7(Delta800) mutants displayed retinal degeneration, muscular degeneration and growth retardation, but the severity of the muscular degeneration and growth retardation were enhanced in Lmo7(Delta800) homozygotes. We suggest that the increase in severity may reflect an interaction between Uchl3 and Lmo7 in the ubiquitin-mediated protein degradation pathway.
Hum Mol Genet 2003 Jun 01
PMID:An engineered 800 kilobase deletion of Uchl3 and Lmo7 on mouse chromosome 14 causes defects in viability, postnatal growth and degeneration of muscle and retina. 1276 Oct 45

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