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)

Cytotoxic T lymphocytes recognize fragments (peptides) of protein antigens presented by major histocompatibility complex (MHC) class I molecules. In general, the peptides are derived from cytosolic proteins and are then transported to the endoplasmic reticulum where they assemble with the MHC class I heavy chains and beta 2-microglobulin to form stable and functional class I molecules. The proteases involved in the generation of these peptides are unknown. One candidate is the proteasome, a nonlysosomal proteinase complex abundantly present in the cytosol. Proteasomes have several proteolytically active sites and are complexes of high relative molecular mass (Mr about 600K), consisting of about 20-30 subunits with Mrs between 15 and 30K. Here we show that at least one of these subunits is encoded by the mouse MHC in the region between the K locus and the MHC class II region, and inducible by interferon-gamma. This raises the intriguing possibility that the MHC encodes not only the MHC class I molecules themselves but also proteases involved in the formation of MHC-binding peptides.
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PMID:Subunit of the '20S' proteasome (multicatalytic proteinase) encoded by the major histocompatibility complex. 192 84

Antigenic peptides presented on major histocompatibility complex (MHC) class I molecules to cytotoxic T cells are generated in the cytosol by the 20 S proteasome. Upon stimulation of antigen presenting cells with interferon-gamma, two constitutive subunits of the 20 S proteasome are replaced by the MHC-encoded subunits low molecular mass polypeptide (LMP) 2 and LMP 7. In addition the expression of the two subunits of the 11 S regulator of the 20 S proteasome (PA28) are increased. As the function of LMP2 and LMP7 in antigen presentation is still controversial, we tested whether these subunits might operate by modifying proteasome activation through the 11 S regulator. We strongly overexpressed the two LMP subunits separately or together by transfection in murine fibroblasts. Isolated 20 S proteasomes from LMP transfectants were applied in digests of a 25-mer peptide in the presence or absence of a purified preparation of 11 S regulator from rabbit erythrocytes. Analysis of the cleavage products by high performance liquid chromatography and electrospray mass spectroscopy revealed marked differences in the peptide product profile in dependence on the LMP2 and LMP7 content. While the 11 S regulator did not preferentially activate LMP2 or 7 containing proteasomes, the binding of the 11 S regulator to any of the proteasome preparations markedly changed both the quality and quantity of peptides produced. These results suggest that the 11 S regulator increases the spectrum of peptides which can be generated in antigen presenting cells.
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PMID:The interferon-gamma-inducible 11 S regulator (PA28) and the LMP2/LMP7 subunits govern the peptide production by the 20 S proteasome in vitro. 755 57

The 20S proteasome is the enzyme complex responsible for the processing of antigens bound by major histocompatibility complex class I molecules. The role of the interferon-gamma (IFN-gamma)-inducible proteasome subunits LMP2 and LMP7 in this process is, however, still controversial. We have studied the effects of IFN-gamma-independent LMP incorporation on the quality of peptides processed from the murine cytomegalovirus IE pp89 25-mer polypeptide substrate through dual cleavages by 20S proteasomes. The incorporation of a single LMP subunit or both LMP2 and LMP7 induces changes in 20S proteasome subunit stoichiometry, alters its cleavage site preference and in consequence, the quality of the generated peptides. When the several hydrolytic activities are tested with short fluorogenic peptide substrates, the Vmax, S0.5 (Km), or both values of 20S proteasomes are altered, depending on the combination of LMP. There exists, however, no obvious correlation between the observed changes in hydrolytic activities against short fluorogenic peptides and the changes in dual cleavage site usage within the 25-mer polypeptide substrate. As judged from the calculated Hill coefficients, the presence of both LMP subunits induces a drastic increase in positive cooperativity between the proteasome subunits.
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PMID:Incorporation of major histocompatibility complex--encoded subunits LMP2 and LMP7 changes the quality of the 20S proteasome polypeptide processing products independent of interferon-gamma. 758 33

Group I Burkitt lymphoma (BL) lines retaining the original BL tumor cell phenotype are unable to present endogenously expressed antigens to HLA class I-restricted cytotoxic T cells (CTL) but can be recognized if the relevant HLA class I/peptide epitope complex is reconstituted at the cell surface by exogenous addition of synthetic target peptide. Endogenous antigen-processing function is restored in BL lines that have undergone Epstein-Barr virus (EBV)-induced drift in culture to the group III phenotype typically displayed by EBV-transformed lymphoblastoid cell lines (LCL) of normal B cell origin. We compared group I versus group III cells for their expression of proteasome components, transporter proteins and HLA-class I antigens, all of which are thought to be involved in the endogenous antigen processing pathway. By Western blot analysis, there were not consistent differences in the low molecular mass protein subunits of proteasomes (lmp)-2, lmp-7 and delta, although the mb-1 proteasome subunit was regularly present at higher levels in group I BL lines relative to group III lines or LCL. By contrast there were marked differences in the expression of peptide transporter-associated proteins (Tap), with down-regulation of Tap-1 and Tap-2 in 8/8 and 7/8 group I BL lines, respectively. Surface levels of HLA class I antigens were also consistently lower in group I cells; this was not associated with an intracellular accumulation of free HLA heavy chains, such as is seen in the Tap-deficient T2 processing-mutant line, but instead reflected a reduced rate of HLA class I synthesis in group I cells. Analysis of EBV gene transfectants of the B lymphoma lines BJAB and BL41 showed that the virus-encoded latent membrane protein-1 (LMP1), which is one of several EBV antigens expressed in group III but not in group I cells, was uniquely able to up-regulate expression both of the Tap proteins and HLA class I. Furthermore, this was accompanied by a restoration of antigen-processing function as measured by the ability of these cells to present an endogenously expressed viral antigen to CTL. These effects of LMP1 were similar to those induced in the same cell lines by interferon-gamma treatment. The results implicate both Tap and HLA class I expression as factors limiting the antigen-processing function of BL cells, and suggest that the accessibility of other EBV-associated malignancies to CTL surveillance may be critically dependent upon their LMP1 status.
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PMID:Restoration of endogenous antigen processing in Burkitt's lymphoma cells by Epstein-Barr virus latent membrane protein-1: coordinate up-regulation of peptide transporters and HLA-class I antigen expression. 777 41

Expression of HLA class I antigens is closely controlled in the placental trophoblast cells, which interface directly with maternal cells during pregnancy. In this study, the possibility that peptide transporter (TAP-1, TAP-2) or proteasome (LMP7) genes might be involved in regulating antigen expression in these or other cells that comprise placentas was investigated. Analysis by Northern blot hybridization showed that transcripts from all three genes were present in samples of first trimester and term placental RNA. TAP-1 and TAP-2 messages were consistently more abundant in early than in late gestation placentas, whereas the reverse was observed for LMP7 mRNA. Futher experiments were done on two trophoblast cell lines. One line, Jar, is negative for HLA class I, and the second, JEG-3, expresses HLA-G as well as other HLA class I genes. Both Jar and JEG-3 cells contained TAP-1, TAP-2 and LMP7 mRNA. With the exception of LMP7 in JEG-3 cells, message from all three genes was increased by treating the trophoblast cells with interferon-gamma. While no evidence was collected to support the postulate that the HLA class I negative status of some trophoblast cell subpopulations could be related to absent or dysfunctional TAP-1, TAP-2 or LMP7 mRNA, the data are consistent with the postulate that placental cell expression of HLA class I antigens could be influenced by the availability of peptide transporters and proteasome components.
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PMID:Expression of HLA class II-associated peptide transporter and proteasome genes in human placentas and trophoblast cell lines. 783 69

The degradation of cytoplasmic antigens to peptides presented by class I MHC molecules is thought to be mediated by the ubiquitin/proteasome pathway. Support for this view came from our observation that the subunit composition of proteasomes can be changed by interferon-gamma (IFN-gamma) treatment. Thereby two subunits, LMP2 and LMP7, which are encoded in the MHC class II region, are incorporated into the proteasomal complex, whereas other subunits disappear. In the experiments reported in this communication we studied the subunit changes occurring in cell lines where the expression of LMP2 or LMP7 can be regulated individually either by IFN-gamma induction or by applying a new system to control the expression of transfected LMPs. In both situations LMP2 induction leads exclusively to the disappearance of housekeeping subunit 2, whereas LMP7 affects only subunit 10. Subunit 2 was found to be 76% homologous to LMP2. Since incorporation of LMP2 into the proteasomal complex prevents processing of the subunit 2 precursor, we conclude that LMP2 displaces subunit 2 during assembly. Subunit displacement is most likely a general mechanism to modulate the catalytic activity of the proteasomal complex without changing its structure. Furthermore, the controlled incorporation of transfected subunits into the complex offers a new approach to study proteasome function in vivo.
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PMID:Displacement of housekeeping proteasome subunits by MHC-encoded LMPs: a newly discovered mechanism for modulating the multicatalytic proteinase complex. 804 54

The LMP7 gene maps to the major histocompatibility complex class II region. The derived protein sequence shares homology with N-terminal amino acid sequence from proteasome subunits (Glynne, R., Powis, S. H., Beck, S., Kelly, A., Kerr, L.-A. and Trowsdale, J., Nature 1991. 353: 357) and it has been suggested that LMP7 is involved in the degradation of endogenous antigens prior to their presentation through class I (Robertson, M., Nature 1991. 353: 300). We have isolated a second LMP7 transcript which has a different first exon to the published sequence. Both transcripts were expressed in cell lines from a number of tissues and both responded to interferon-gamma. An anti-LMP7 antiserum precipitated proteins similar in their migration on sodium dodecyl sulfate-polyacrylamide gel electrophoresis to those precipitated by an anti-proteasome serum. Western blot analysis of anti-proteasome precipitates demonstrated that the LMP7 protein is incorporated into the proteasome but has a molecular mass of 23 kDa, 7 kDa smaller than expected fro the derived protein sequence of either of the cDNA. A pulse-chase experiment indicated that post-translational cleavage of the LMP7 N terminus precedes the formation of the 23-kDa proteasome subunit. To our knowledge, LMP7 provides the first biochemical evidence for such processing of proteasome components.
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PMID:The major histocompatibility complex-encoded proteasome component LMP7: alternative first exons and post-translational processing. 845 75

The 20S proteasome is a protease complex of functional importance for antigen processing. Two of the 14 proteasome subunits, delta and MB1, can be replaced by the major histocompatibility complex (MHC)-encoded and interferon-gamma (IFN-gamma)-inducible subunits LMP2 and LMP7, respectively. LMP2 and LMP7 alter the cleavage site specificity of the 20S proteasome and are required for the efficient generation of T cell epitopes from a number of viral proteins and for optimal MHC class I cell surface expression. We compared the 20S proteasome subunit pattern from IFN-gamma-induced and non-induced mouse fibroblasts on two-dimensional gels and identified a third subunit exchange by microsequencing: the non-MHC-encoded subunit MECL-1 is induced by IFN-gamma and replaces a sofar barely characterized beta subunit designated 'MC14'. In analogy to LMP2 and LMP7, MECL-1 may be functional in MHC class I-restricted antigen presentation.
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PMID:A third interferon-gamma-induced subunit exchange in the 20S proteasome. 862 80

Most antigenic peptides presented on major histocompatibility complex class I molecules are generated by proteasomes. Interferon-gamma, which stimulates antigen presentation, induces new proteasome beta-subunits LMP2 and LMP7, which replace the homologous beta-subunits Y (delta) and X (epsilon). As a result, the capacity of the proteasome to cleave model peptides increases after hydrophobic and basic residues and falls after acidic residues. To clarify the function of these subunits, we examined the effects of overexpressing subunits X (delta) and Y (epsilon). Transfection of the Y gene into HeLa cells stimulated the proteasomal cleavage after acidic residues without altering other peptidase activities. This effect was proportional to the amount of the Y subunits and opposite to the effect of its homolog, LMP2. Y appears to promote cleavages after acidic residues. Furthermore, in mutants lacking the LMP genes (in contrast to wild-type cells), interferon-gamma treatment increased the proteasome content of Y subunits and enhanced postacidic cleavages. Transfection with cDNA for the X subunit reduced hydrolysis after hydrophobic and basic residues, an effect opposite to transfection of LMP2 and LMP7. Surprisingly, transfection of X increased the amounts not only of X, but also of Y, while decreasing LMP2 content. Thus, the loss of the Y subunit upon interferon-gamma treatment or LMP2 transfection accounts for the suppression of postacidic cleavages, and the loss of X contributes to the increased hydrolysis after hydrophobic and basic residues. These adaptations should favor the production of the kinds of peptides that are presented on major histocompatibility complex class I molecules.
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PMID:Proteasome subunits X and Y alter peptidase activities in opposite ways to the interferon-gamma-induced subunits LMP2 and LMP7. 866 18

Major histocompatibility complex (MHC) class I molecules bind peptides derived from cellular proteins and display them for surveillance by the immune system. These peptide-binding molecules are composed of a heavy chain, containing an antigen-binding groove, which is tightly associated with a light chain (beta 2-microglobulin). The majority of presented peptides are generated by degradation of proteins in the cytoplasm, in many cases by a large multicatalytic proteolytic particle, the proteasome. Two beta-subunits of the proteasome, LMP2 and LMP7, are inducible by interferon-gamma and alter the catalytic activities of this particle, enhancing the presentation of at least some antigens. After production of the peptide in the cytosol, it is transported across the endoplasmic reticulum (ER) membrane in an ATP-dependent manner by TAP (transporter associated with antigen presentation), a member of the ATP-binding cassette family of transport proteins. There are minor pathways for generating presented peptides directly in the ER, and some evidence suggests that peptides may be further trimmed in this location. The class I heavy chain and beta 2-microglobulin are cotranslationally translocated into the endoplasmic reticulum where their assembly may be facilitated by the sequential association of the heavy chain with chaperone proteins BiP and calnexin. The class I molecule then associates with the lumenal face of TAP where it is retained, presumably awaiting a peptide. After the class I molecule binds a peptide, it is released for exocytosis to the cell surface where cytotoxic T lymphocytes examine it for peptides derived from foreign proteins.
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PMID:Antigen processing and presentation by the class I major histocompatibility complex. 871 19

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