EC:3.4.25.1 - FACTA Search

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Query: EC:3.4.25.1 (proteasome)
28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To study the role of proteasomes in Ag presentation, we analyzed the effects of proteasome inhibitors Cbz-Leu-Leu-Leucinal and lactacystin on the ability of mouse fibroblast cells to present recombinant vaccinia virus gene products to MHC class I-restricted T cells. The effects of the inhibitors depended on the determinant analyzed. For influenza virus nucleoprotein (NP), presentation of the immunodominant Kk-restricted determinant (NP(50-57)) was marginally inhibited, whereas presentation of the immunodominant Kd-restricted determinant (NP(147-155)) was enhanced, particularly by lactacystin. Biochemical purification of peptides confirmed that lactacystin enhanced the generation of Kd-NP(147-155) complexes fourfold. Lactacystin also enhanced the recovery of one Kd-restricted vaccinia virus determinant from HPLC fractions, while inhibiting recovery of another. The inhibitors were used at sufficient concentrations to block presentation of biosynthesized full-length OVA and to completely stabilize a rapidly degraded chimeric ubiquitin-NP fusion protein. Strikingly, presentation of antigenic peptides from this protein was unaffected by proteasome inhibitors. We also observed that proteasome inhibitors induced expression of cytosolic and endoplasmic reticulum stress-responsive proteins. These data demonstrate first that the processes of protein degradation and generation of antigenic peptides from cytosolic proteins can be dissociated, and second that effects of proteasome inhibitors on Ag presentation may reflect secondary effects on cellular metabolism.
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PMID:Dissociation of proteasomal degradation of biosynthesized viral proteins from generation of MHC class I-associated antigenic peptides. 959 Feb 33

The proteasome is a multisubunit protease responsible for the generation of peptides loaded onto MHC class I molecules. Recent evidence indicates that binding of an IFN-gamma-inducible PA28 activator complex to the 20S proteasome enhances the generation of class I binding peptides. The alpha- and beta-subunits, which constitute the PA28 activator complex in the form of an (alphabeta)3 heterohexamer, show significant amino acid sequence similarity to a protein, designated Ki or the gamma-subunit, that is capable of binding to the 20S proteasome. In this study, we describe the complete nucleotide sequences of the mouse genes, Psme1, Psme2, and Psme3, coding for the alpha-, beta-, and gamma-subunits, respectively. The overall exon-intron organizations of the three Psme genes are virtually identical, thus providing evidence that they are descended from a single ancestral gene. The promoter regions of the Psme1 and Psme2 genes contain sequence motifs that qualify as IFN-stimulated response elements, consistent with the observation that their expression is induced strongly by IFN-gamma. The Psme1 and Psme2 genes are located approximately 6 kb apart with their 3'-ends pointing toward each other on bands C2 to D1 of mouse chromosome 14, supporting the idea that they emerged by tandem duplication.
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PMID:Characterization of the mouse PA28 activator complex gene family: complete organizations of the three member genes and a physical map of the approximately 150-kb region containing the alpha- and beta-subunit genes. 959 Feb 40

Two activators, named PA700 and PA28, are known to bind to 20 S proteasomes, forming two different complexes. The PA700-proteasome complex, also known as the 26 S proteasome, can degrade intact proteins, whereas complexes with PA28 can degrade only peptides. Monoclonal antibodies to 20 S proteasomes or the p45 ATPase subunit (Trip1, Sug1) of PA700 precipitated the same set of proteins from HeLa extracts, including six different ATPase subunits of PA700. This shows that p45 is not present in other protein complexes and suggests that all 26 S proteasome particles contain the same set of ATPase subunits. Interferons alpha and gamma had no effect on the composition of the 26 S proteasome, except for the replacement of subunits delta, MB1 and Z with Lmp2, Lmp7 and MECL1 respectively. Surprisingly, antibodies to PA28 precipitated p42, a component of PA700. Conversely, anti-p45 antibodies precipitated not only 26 S proteasomes but also PA28 alpha, beta and gamma, indicating that 20 S proteasomes can simultaneously bind both PA700 and PA28. PA28 alpha beta is known to be involved in antigen presentation. Conceivably, intact substrate proteins are recognized by PA700 and fed into proteasomes whose cleavage specificity is optimized for antigen presentation on MHC class I by PA28 and three interferon inducible proteasome subunits.
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PMID:Simultaneous binding of PA28 and PA700 activators to 20 S proteasomes. 962 Aug 78

The proper folding and assembly of major histocompatibility complex (MHC) class I molecules in the endoplasmic reticulum (ER) is an intricate process involving a number of components. Nascent heavy chains of MHC class I molecules, translocated into the ER membrane, are rapidly glycosylated and bind the transmembrane chaperone calnexin. In humans, after dissociation from calnexin, fully oxidized MHC class I heavy chains associate with beta 2-microglobulin (beta 2m) and the soluble chaperone calreticulin. This complex interacts with another transmembrane protein, tapasin, which is believed to assist in MHC class I folding as well as in mediating the interaction between assembling MHC class I molecules and the transporter associated with antigen processing (TAP). The TAP heterodimer (TAP1-TAP2) introduces the final component of the MHC class I molecule by translocating peptides, predominately generated by the proteasome, from the cytosol into the ER where they can bind dimers of beta 2M and the MHC class I heavy chain. Recently, the thiol oxidoreductase ERp57--also known as GRP58, ERp61, ER60, Q2, HIP-70, and CPT and first misidentified as phospholipase C-alpha--has been shown to bind in conjunction with calnexin or calreticulin to a number of newly synthesized ER glycoproteins when their N-linked glycans are trimmed by glucosidases I and II. It was speculated that ERp57 is a generic component of the glycan-dependent ER quality control system. Here, we show that ERp57 is a component of the MHC class I peptide-loading complex. ERp57 might influence the folding of MHC class I molecules at a critical step in peptide loading.
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PMID:The thiol oxidoreductase ERp57 is a component of the MHC class I peptide-loading complex. 963 23

The proteasome is the central enzyme of protein degradation in the cytosol and the nucleus. It is involved in the removal of abnormal, misfolded or incorrectly assembled proteins, in the processing or degradation of transcriptional regulators in stress response, in degradation of cyclins in cell-cycle control, in the destruction of transcription factors or metabolic enzymes in cell differentiation and metabolic response, and in MHC class I mediated cellular immune response. By the analysis of the crystal and molecular structures of the 20 S proteasomes from the archaeon Thermoplasma acidophilum and from yeast it was shown that the beta-type subunits in which the proteolytic activities reside are members of the N-terminal nucleophile (Ntn) protein family. They are synthesized as proproteins and become active by autoprocessing at a Gly-1-Thr1 bond. The Thr1Ala mutant of subunit beta1/Pre3 of the 20 S proteasome from yeast is unable to autolyse. Its crystal and molecular structure at 2.2 A resolution described here shows that the pro-segment adopts a well-defined gamma-turn conformation at Gly-1 and provides a first view at an autolysis site in Ntn hydrolases. The Gly-1 carbonyl oxygen displays two hydrogen bonds. The modelled Thr1 side-chain is located above the gamma-turn bulge such that addition of its nucleophilic hydroxyl group to the electrophilic Gly-1 carbonyl carbon atom may proceed by very small motions. The pro-segment binding site and the catalytic site provide a rigid structural framework and appropriate hydrogen bond donors for this reaction. The same structure also supports addition of the Thr1 hydroxyl group to the carbonyl carbon atom of Leu-2 as a model for the first step in substrate hydrolysis by the proteasome.
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PMID:Conformational constraints for protein self-cleavage in the proteasome. 964 94

MHC class I molecules are cell surface glycoproteins that play a pivotal role in the response to intracellular pathogens. The loading of MHC class I molecules with antigenic substrates takes place in the endoplasmic reticulum. This requires a functional TAP transporter, which translocates peptides into the endoplasmic reticulum from the cytosol. The generation of antigenic peptides from polypeptide precursors is thought to be mediated in the cytosol by the proteasome. Previously, we have demonstrated that inhibiting the proteasome with the specific covalent inhibitor lactacystin results in a direct reduction of peptide-loaded MHC class I molecules. This indicates that the proteasome is the limiting step in the MHC class I pathway. In this study we use isoelectric focusing to demonstrate that two related MHC class I alleles, HLA-A3 and HLA-A11, as well as HLA-B35 do not follow this behavior. In contrast to other class I alleles expressed by the same cells, these alleles are loaded with peptides and mature normally when proteasome activity is severely inhibited. Our observations highlight a new level of diversity in the MHC class I system and indicate that there are allele-specific differences in the linkage between proteasome activity and MHC class I peptide loading.
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PMID:Allelic differences in the relationship between proteasome activity and MHC class I peptide loading. 964 10

Proteasomes have been implicated in the production of the majority of peptides that associate with MHC class I molecules. We used two different proteasome inhibitors, the peptide aldehyde N-acetyl-L-leucyl-L-leucyl-L-norleucinal (LLnL) and the highly specific inhibitor lactacystin, to examine the role of proteasomes in generating peptide epitopes associated with HLA-A*0201. Neither LLnL nor lactacystin was able to completely block the expression of the HLA-A*0201. Furthermore, the effects of LLnL and lactacystin on the expression of different categories of specific epitopes, TAP independent vs TAP dependent and derived from either cytosolic or membrane proteins, were assessed. As predicted, presentation of two TAP-dependent epitopes was blocked by LLnL and lactacystin, while a TAP-independent epitope that is processed in the endoplasmic reticulum was unaffected by either inhibitor. Surprisingly, both LLnL and lactacystin increased rather than inhibited the expression of a cytosolically transcribed and TAP-dependent peptide from the influenza A virus M1 protein. Mass spectrometric analyses of in vitro proteasome digests of a synthetic 24 mer containing this epitope revealed no digestion products of any length that included the intact epitope. Instead, the major species resulted from cleavage sites within the epitope. Although cleavage at these sites was inhibitable by LLnL and lactacystin, epitope-containing species were still not produced. We conclude that proteasomes may in some cases actually destroy epitopes that would otherwise be destined for presentation by class I molecules. These results suggest that some epitopes are generated by nonproteasomal proteases in the cytosol.
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PMID:Proteasomes can either generate or destroy MHC class I epitopes: evidence for nonproteasomal epitope generation in the cytosol. 964 14

Production of antigenic peptides that serve as MHC class I ligands is essential for initiation of cell-mediated immunity. Accumulating evidence indicates that the proteasome, a large multisubunit protein deg radative machine in eukaryotes, functions as a processing enzyme responsible for the generation of MHC class I ligands. This processing system is elaborately regulated by various immunomodulatory cytokines. In particular, interferon-gamma induces the formation of immunoproteasomes and a recently identified proteasomal regulatory factor. PA28, which in concert contribute to efficient production of MHC class I ligands. Many of the MHC-encoded genes including LMP appear to have emerged by an ancient chromosomal duplication, suggesting that modifications and renewal of pre-existing non-immune genes were instrumental in the emergence of adaptive immunity.
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PMID:The MHC class I ligand-generating system: roles of immunoproteasomes and the interferon-gamma-inducible proteasome activator PA28. 970 May 9

The Epstein-Barr virus nuclear antigen 1 contains a glycine-alanine repeat that inhibits in cis MHC class I-restricted presentation. We report here that insertion of a minimal glycine-alanine repeat motif in different positions of I kappaB alpha protects this NF-kappaB inhibitor from signal-induced degradation dependent on ubiquitin-proteasome, and decreases its basal turnover in vivo resulting in constitutive dominant-negative mutants. The chimeras are phosphorylated and ubiquitinated in response to tumor necrosis factor alpha, but are then released from NF-kappaB and fail to associate with the proteasome. This explains how functionally competent I kappaB alpha is protected from proteasomal disruption and identifies the glycine-alanine repeat as a new regulator of proteolysis.
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PMID:A minimal glycine-alanine repeat prevents the interaction of ubiquitinated I kappaB alpha with the proteasome: a new mechanism for selective inhibition of proteolysis. 970 Dec 31

The proteasome contributes to the generation of most of the peptide ligands of MHC class I molecules. To compare the identity of the peptides generated by the proteasome with those finally presented by MHC class I molecules, we generated a monoclonal antibody recognizing the C-terminal part of the dominant H2-Kd ligand SYFPEITHI derived from the JAK1 tyrosine kinase. Immunoprecipitations of lysates from H2-Kd-expressing or non-expressing cells revealed that only in the presence of H2-Kd SYFPEITHI could be isolated. No longer potential precursor peptide containing SYFPEITHI could be detected. Surprisingly, a peptide lacking the first two amino acids, FPEITHI, was isolated independently of the presence of H2-Kd molecules. The detection of only SYFPEITHI and FPEITHI in cell lysates corresponded with the strong generation of these two peptides in in vitro digests of elongated SYFPEITHI-containing peptides with purified 20S proteasomes. Our results indicate that MHC ligands can be generated directly by the proteasome in vivo and that at least for SYFPEITHI the expression of the corresponding MHC molecule is critical for protection of the ligand in vivo.
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PMID:The making of the dominant MHC class I ligand SYFPEITHI. 971 Feb 25

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