EC:3.4.25.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Trophoblast antigens at the maternal-fetal interface that are capable of stimulating maternal immune responses have been studied. Candidates are blood group I and P, HLA, Fc gamma-receptors, TLX, and phospholipids. Antigens I and P on trophoblast have been implicated in pregnancy loss but incompatible i,p mothers are rare. HLA-G is expressed on cytotrophoblast; however, no evidence for HLA-G allotypy or maternal responses to these molecules exists, although HLA-G has been implicated in recruitment of suppressor T cells. Receptors for IgG (Fc gamma-RI, Fc gamma-RII and Fc gamma-III) are present on trophoblast but allotypy is limited to the NA1-NA2 antigen system associated with Fc gamma-RIII on neutrophils. Maternal Fc-gamma R blocking antibodies have been linked to pregnancy success. The TLX alloantigen system was described by using xenogeneic antisera. Idiotype-antiidiotype regulated maternal responses to TLX are proposed as necessary for successful pregnancy. Several putative TLX monoclonal antibodies (Mab) recognize a regulator of complement activation called MCP (membrane cofactor protein, or CD46). Mab to MCP do not exhibit allotypy. Syncytial and cytotrophoblastic membranes are rich sources of MCP. Preliminary data suggest that a conformational site induced by C3b (iC3) binding to MCP may be responsible for TLX allotypy. Certain pregnancy loss patients produce antiphospholipid antibodies (aPA). Some investigators believe that aPA recognize a plasma protein cofactor, beta 2 GPI and not phospholipid per se. We produced three Mab specific for beta 2 GPI, one of which fails to recognize beta 2 GPI bound to phospholipid [corrected].(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Immune recognition at the maternal-fetal interface: overview. 128 61

It is now possible to paint a detailed picture of how cytoplasmic proteins are handled by the immune system. They are apparently degraded in the cytoplasm into peptides. These are then transported into the endoplasmic reticulum where they encounter class I major histocompatibility complex (MHC) molecules. Once loaded with peptide, the HLA molecules move through the Golgi apparatus to the cell membrane. Until recently, it had not been established how peptides without signal sequences cross the ER membrane. However, a number of papers have now described a pair of membrane transporter genes of the ABC (ATP-binding cassette) super-family which are attractive candidates for this function. Both transporter genes, which may encode two halves of a heterodimer, are situated in the class II region of the MHC. There is evidence that other putative components of the processing machinery, the LMPs (low molecular mass polypeptides), are also encoded in the MHC. Similarities between the properties of the LMPs and a large intracellular protease complex, called proteasome, have led to the suggestion that LMPs are involved in processing antigens. We have now identified a human gene with sequence homology to proteasome components. Remarkably, this gene maps between the two putative peptide transporter genes.
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PMID:A proteasome-related gene between the two ABC transporter loci in the class II region of the human MHC. 192 32

We have developed an approach to human developmental biology which exploits somatic cell genetics. With this system we have examined the production of the HLA-A,B,C antigens, A human-mouse somatic cell hybrid was constructed which contained a human X-7 chromosome translocation carrying the HLA region; this hybrid was used as a donor of the X-6 translocation in the technique of microcell transfer. The X-6 chromosome recipient was the mouse embryonal carcinoma cell line PCC4. The microcell hybrid MCP-6 retained the embryonal carcinoma phenotype as judged by shape and absence of H-2 expression. Nonetheless, the expression of the HLA-A,B,C genes was not extinguished. HLA-A,B,C antigen production of the cell surface, however, was not detected because this hybrid apparently could not make beta 2-microglobulin.
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PMID:Introduction of a human X-6 translocation chromosome into a mouse teratocarcinoma: investigation of control of HLA-A, B, C expression. 695 Nov 67

The ability of minigene-encoded viral peptide epitopes to be presented by class I molecules in the absence of MHC-encoded transporters has been evaluated in mutant T2 cells. These cells have a large deletion in the class II MHC region that includes the known transporter protein for antigenic peptides and proteasome genes and they are defective in presenting viral epitopes to CTL. T2 cells that express minigenes encoding the influenza virus matrix peptide 58-66 (GILGFVFTL) and two HTLV 1 Tax peptides 11-19 (LLFGYPVYV) and 12-19 were lysed by HLA-A2-restricted peptide-specific CTL. Minigene expression of a HLA-A2-restricted HIV reverse transcriptase peptide 476-484 (ILKEPVHGV) with three charged residues sensitized T2 cells poorly for lysis by HIV-specific CTL unless the peptide was preceded by an endoplasmic reticulum translocation signal sequence. Expression of an influenza virus nucleoprotein peptide 383-391 (SRYWAIRTR) with three charged arginine residues did sensitize HLA-B27+ T2 cells for lysis by peptide-specific CTL. These and other results with endogenously expressed peptide analogs in which hydrophobic and charged amino acids were interchanged demonstrate that antigenic peptides can be translocated from the cytoplasm into the class I Ag presentation pathway independent of MHC-encoded transporters; and that peptide hydrophobicity appears not to be a major determinant in selecting peptides for this alternate pathway.
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PMID:Presentation of endogenous peptides to MHC class I-restricted cytotoxic T lymphocytes in transport deletion mutant T2 cells. 767 94

Two pathways exist within vertebrate cells to generate peptides for recognition by T cells. The "endogenous" pathway provides peptides to MHC class I molecules for presentation to CD8+ T cells. These peptides are derived from proteins synthesized or residing in the cytoplasm or nucleus, and involves proteasomes and the ubiquitin pathway of protein degradation, as well as a specific peptide transporter (TAP) that allows these peptides access to the lumen of the endoplasmic reticulum. The exogenous pathway provides peptides to MHC class II molecules for presentation to CD4+ T cells. These peptides are derived from extracellular antigens taken up by endocytosis and degraded in the endosomal/lysosomal pathway. Peptide loading of MHC class II molecules requires the presence of a molecule (H-2M in mouse, HLA-DM in humans) that is structurally related to MHC class II molecules, but the mechanistic basis of this requirement is unknown. The class II region of the MHC contains a cluster of genes encoding proteins involved in antigen processing, including genes for two proteasome subunits (LMP2 and LMP7), the peptide transporter heterodimer (TAP1 and TAP2), and the H-2M/HLA-DM molecule (Ma and Mb, or DMA and DMB).
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PMID:Pathways for the processing and presentation of antigens to T cells. 772 12

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

The processing pathway for the MHC class II-restricted presentation of endogenous cytosolic Ag is distinct from the class I pathway since a cytosolic form of the influenza virus A hemagglutinin, expressed by a recombinant vaccinia virus, was presented by HLA-DR in a B cell mutant lacking the TAP1 subunit of the transporter for Ag presentation (TAP). In this report, two additional B cell mutants have been used to define the requirements of this TAP1-independent processing pathway. The first mutant, .61, lacks expression of both TAP1 and TAP2 genes, and of both LMP2 and LMP7 genes encoding proteasome subunits. As expected, class I-restricted presentation of the influenza virus matrix protein was totally deficient in mutant .61. In contrast, class II-restricted presentation of both the natural cytosolic matrix and the engineered cytosolic hemagglutinin proteins was functional in mutant .61. Thus, presentation of cytosolic Ag by class II molecules is independent of both TAP subunits and of the two MHC-encoded proteasome subunits. However, this endogenous processing pathway is dependent on at least one other function encoded in the class II region of the MHC as demonstrated with the second mutant, .174, in which a large deletion eliminates all expressed class II genes. Mutant .174 transfected with HLA-DR1 genes was previously shown to be defective in the presentation of exogenous Ag but normal in the presentation of short exogenous peptides. We show here that .174(DR1) is also defective in the presentation of cytosolic matrix and hemagglutinin proteins. This similar requirement for the class II-restricted presentation of either cytosolic Ag or internalized exogenous Ag suggests that both forms of Ag are ultimately targeted to the same cellular compartment for association with class II molecules.
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PMID:Presentation of cytosolic antigen by HLA-DR requires a function encoded in the class II region of the MHC. 825 89

The T cell arm of the immune system of higher vertebrates is specific for antigenic peptides bound to cell surface major histocompatibility complex (MHC) molecules. These peptides are derived from two distinct pathways of antigen processing. The class I, or endogenous pathway, utilizes proteasomes and the ubiquitin system for protein degradation, with subsequent transport of the resulting peptides into the lumen of the endoplasmic reticulum by a specific peptide transporter, called TAP. The expression of distinct proteasome subsets is regulated by the cytokine gamma interferon (IFN-gamma). The class II, or exogenous pathway, utilizes the endosomal and lysosomal pathways for protein degradation, and a number of immune-specific accessory molecules including the class-II associated Invariant chain (Ii) and MHC-encoded HLA-DM (H2-DM in mouse) molecules.
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PMID:The genetics of proteasomes and antigen processing. 882 92

One hundred kidney graft recipients were analysed retrospectively with regard to the presence of Fc gamma RII (EAI) blocking or cytotoxic HLA antibody induced by pretransplant transfusion. Previous studies suggested that transfusion induces the production of EAI blocking antibody which may have specificity to TLX/CD46/MCP alloantigens. A superior graft survival (65%/9 yr) was found in the presence of EAI alloantibody compared to graft survival in the absence of this antibody (40%/9 yr). Further analysis showed the following survival rates in relation to the combined appearance of HLA cytotoxic and EAI antibody (EAI positive, HLA negative 67%/9 yr; EAI positive, HLA positive 60%/9 yr; EAI negative, HLA positive 0%/9 yr; EAI negative, HLA negative 40%/9 yr). There was striking low graft failure in the first 6 months in patients with EAI antibody. Taking into consideration that the HLA B/DR mismatching grade in all various groups were the same and no considerable difference was found in association to graft survival, the presence or absence of alpha EAI (anti-TLX) antibody solely seems to have superior or additional effect on graft survival as compared to HLA matching.
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PMID:Association between long-term kidney graft survival and the presence of pre-transplant cytotoxic anti-HLA and/or non-MHC 'Fc gamma RII blocking' (anti-TLX) alloantibody. 893 Apr 62

T-cells recognize antigenic peptides associated with HLA molecules belonging to Class I (HLA-A, -B, or -C) or Class II (HLA-DP, -DQ, -DR). Roughly, Class I HLA molecules represent antigens to cytotoxic CD8+ T-cells and Class II HLA molecules to helper CD4+ T-cells. Class II HLA molecules primarily present "exogenic" peptides that penetrate within cells by endocytosis, whereas Class I HLA molecules present "endogenic" peptides produced within cells. In both cases, the mechanisms of antigen presentation are closely liked to the biosynthesis of HLA molecules and to the expression of other molecules including proteasome (LMP) and the peptide transporters (TAP) needed to transport peptides through the endoplasmic reticulum in the case of Class I molecules, and invariant chain (Ii) and HLA-DM antigens in the case of Class II molecules. In addition, "exogenous" presentation by Class I molecules has recently been described, and may be relatively specific of phagocytic cells such as macrophages.
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PMID:[Antigen presentation and macrophages]. 924 34

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