EC:3.2.1.17 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.17 (lysozyme)
21,489 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The alpha beta T-cell receptor (TCR) recognizes antigenic peptides bound to major histocompatibility complex (MHC) molecules. In contrast to the antibody combining site, for which the antigen contact or complementarity-determining residues (CDRs) have been precisely defined, the location and function of the corresponding CDR regions of the alpha and beta TCR chains are not known. To develop a model system for systematic analysis of the CDRs of the alpha beta TCR, we isolated a panel of murine T-cell clones that recognize a lysozyme peptide containing residues 74-88 bound to either Ab or Abm-12 MHC class II molecules. Although these two MHC molecules differ by only three amino acid residues within the A beta chain, each of the T-cell clones was specific for peptide bound to the self-MHC molecule and did not recognize the same peptide bound to the other MHC molecule. The structural basis for this exquisite ligand specificity of the TCRs was analyzed by isolation and characterization of alpha and beta chain genes from five closely related T-cell clones. Comparison of predicted amino acid sequences mapped the ligand specificity differences to residues present within the alpha chain variable region segment and the alpha and beta chain variable-joining region junction regions. Thus with current models of TCR-ligand interactions, the results suggest that residues 26-30 of the alpha chain variable region may constitute one of the CDR regions of the TCR.
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PMID:Structure-function relationship among T-cell receptors specific for lysozyme peptides bound to Ab or Abm-12 molecules. 131 73

We have found that if core regions crucial for class II binding are incorporated in multiple copies in the same peptide molecule ("reiterative motifs"), marked enhancement of the binding capacity occurs. Isotype specificity (IAd vs IEd binding capacities) is retained in all three antigenic determinants so far analyzed (lambda rep 12-26, OVA 323-339, and hen egg lysozyme 105-120). The mechanism involved in such an effect is not clear, but experiments involving introduction of a peptide spacer between two repeated core regions do not support the notion that the effect is mediated by cross-linking of more than one MHC molecule, favoring the possibility that conformational effects or distinct subsites of interaction on the MHC molecule may be involved. Based on reiterative structures, a peptide molecule composed of only two different amino acids (Ala and His) has been produced that still retains a very high binding affinity. An 125I-radiolabeled form of this peptide has been used to demonstrate that the high binding detected is mediated by the same binding site involved in the interaction of IAd and OVA 323-339. Inhibition of Ag presentation studies further supports the immunologic relevance of the phenomena observed. Finally, we observed naturally occurring clustered binding sites in proximity of immunodominant protein regions, raising the possibility that the phenomenon might have a physiologic counterpart.
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PMID:A novel approach to the generation of high affinity class II-binding peptides. 197 60

We have studied the relationship between MHC-restricted, Ag-specific recognition and TCR structure in a panel of seven Th-hybridomas specific for the foreign protein Ag, hen egg-white lysozyme, and the I-Ak class II MHC molecule. The fine specificity of these Th cells had been determined previously by their reactivity to a panel of APC lines bearing mutant I-Ak molecules and to proteolytic fragments of HEL. TCR gene segment composition was determined by cDNA cloning and DNA sequencing. A heterogeneous, yet repetitive usage of gene segments was observed within the panel. The same V alpha C10-J alpha MD13 rearrangement was used in three of the hybridomas, two with identical Ag and MHC-restriction fine specificities. The prevalent usage of the V beta 14 gene segment and members of J beta 2 cluster was noted. Inasmuch as gene segment usage did not correlate with MHC-restriction or Ag fine specificity alone, these results favor an interactive Ag model of T-cell recognition, in which Ag and MHC are recognized as a bimolecular complex.
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PMID:T cell receptor gene segment usage in a panel of hen-egg white lysozyme specific, I-Ak-restricted T helper hybridomas. 246 15

The helper T cell clone 3H.25 is specific for hen egg white lysozyme and the class II MHC molecule I-Ab. This TH cell has three rearrangements in the beta-chain gene family-a V beta-D beta-J beta 1 and a D beta 2-J beta 2 rearrangement on one homolog and a D beta 1-J beta 2 rearrangement on the other. These observations demonstrate that this functional T lymphocyte expresses only a single V beta gene segment and, accordingly, exhibits allelic exclusion of beta-chain gene expression. The rearranged 3H.25 V beta gene segment is the same as that expressed in a T helper cell specific for cytochrome c and an I-Ek MHC molecule. Thus, there is no simple correlation between the V beta gene segment and antigen specificity or MHC restriction.
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PMID:Rearranged beta T cell receptor genes in a helper T cell clone specific for lysozyme: no correlation between V beta and MHC restriction. 258 Jun 39

Major histocompatibility complex (MHC)-restricted recognition of antigen by T lymphocytes involves the formation of a complex composed of the T cell receptor, antigen, and restricting MHC molecule. To elucidate the interactions occurring within the antigen recognition complex, we have evaluated the ability of a panel of cell lines expressing mutated I-Ak molecules to function in the recognition by T hybridoma cells of two distinct peptide antigens. Our results indicate that while alterations along the entire length of the proposed helical structure in the carboxyterminal half of the beta 1 domain interfere with the I-Ak-restricted recognition of human fibrinopeptide B, mutations which affect recognition of hen egg lysozyme/I-Ak fall almost exclusively in the central portion of the helix. On the basis of these and previous results, we propose a "T cell receptor-mediated peptide exchange model" for formation of the antigen recognition complex.
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PMID:Identification of I-A beta-chain residues critical for T cell recognition of peptide antigens. 278 6

Cytotoxic and helper T lymphocytes recognize foreign antigen in the form of short peptides associated with class I and class II major histocompatibility complex (MHC) molecules, respectively. A recent study of the three-dimensional structure of a class I MHC molecule revealed a cleft formed by the amino-terminal half of the protein, which could serve as the binding site for these peptides. Because an individual possesses only a limited set of different MHC molecules, each molecule of this set must have the ability to bind a large number of different peptides in order to ensure full immunocompetence. Thus, it can be anticipated that peptides with unrelated sequences compete for binding to the same MHC molecule, and, indeed, this has been shown to occur in vitro. We therefore decided to see whether such competition could also regulate the cell responses in vivo. We have found that a synthetic peptide corresponding to residues 46-62 of mouse lysozyme, although not immunogenic itself, effectively inhibits the priming for T-cell responses when injected into mice together with foreign protein or peptide antigens. The inhibition observed strictly correlates with the capacity of the competitor to bind to the particular MHC molecule presenting the foreign antigen, and its extent depends on the molar ratio between antigen and competitor.
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PMID:In vivo competition between self peptides and foreign antigens in T-cell activation. 326 93

The immune system has evolved the potential to respond to a wide variety of antigens, yet unresponsiveness to many foreign determinants is encountered frequently. Here, we report a lack of response to a particular determinant, hen egg lysozyme (HEL)-(46-61)-peptide (p46-61), in C57BL/6 (H-2b) mice, whereas a strong T-cell response to this determinant is obtained in major histocompatibility complex (MHC)-identical C3H.SW mice. However, (C3H.SW x C57BL/6)F1 mice respond well to p46-61, suggesting the absence of a p46-61-specific "hole" in the T-cell repertoire in C57BL/6 mice. We further show that p46-61 cannot bind the I-Ab class II MHC molecule, whereas p46-60 lacking Arg61 exhibits good binding and is immunogenic in both strains. Thus, the presence of the hindering residue, Arg61, renders p46-61, a dominant determinant in C3H.SW, into a silent, cryptic determinant in C57BL/6 mice. Upon i.p. immunization with HEL, no T-cell responses to either HEL or p46-61 could be demonstrated in spleens of HEL-primed C57BL/6 mice, whereas a predominant response to p46-61 and HEL was demonstrated in C3H.SW mice. Evidently, C57BL/6 mice differ from C3H.SW in their ability to process p46-61 into an actual I-Ab binding determinant, indicating a putative enzymatic defect in the C57BL/6 strain. Furthermore, our results suggest that the inability of C57BL/6 mice to respond in the spleen to HEL is based upon its failure to generate a dominant immunogenic determinant from HEL, coupled with its pattern of susceptibility to regulatory effects.
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PMID:Hindrance of binding to class II major histocompatibility complex molecules by a single amino acid residue contiguous to a determinant leads to crypticity of the determinant as well as lack of response to the protein antigen. 753 99

Analysis of the relationship between the structure of a protein molecule and its function often exploits the techniques of gene mutation and expression in transfected cell lines. This approach has been used extensively in the study of MHC molecules for testing predictions derived from structural models. Comparison of the functional properties of mutant molecules is difficult because MHC molecules interact with both peptides and T cell receptors. Functionality is commonly determined in biological assays which are dependent on T cell recognition of specific peptide/MHC complexes and measure secondary events triggered by T cell activation. In this study four L cell lines transfected with different combinations of alpha and beta chains from I-Ak and I-Au were used as antigen-presenting cells to activate two hen egg-white lysozyme-specific T cell clones. We compared several biological assays, namely, T cell proliferation, cytokine production, and cytotoxicity. Different assays indicated varying degrees of functionality for the same MHC molecule and thus demonstrated the difficulty in unambiguous interpretation of data from complex assays. Furthermore, we detected differences among the transfected lines which appeared unrelated to the expression of the introduced MHC genes.
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PMID:Complications in the functional analysis of transfected MHC genes. 811 88

We report here the identification and quantitation of a minor epitope from hen egg white lysozyme (HEL) isolated from the class II MHC molecule I-Ak of APCs. We isolated and concentrated the peptides from the I-Ak extracts by a peptide-specific mAba, followed by their examination by electrospray mass spectrometry. This initial step improved the isolation, recovery, and quantitation and allowed us to identify 13 different minor peptides using the Ab specific for the HEL tryptic fragment 34-45. The HEL peptides varied on both the amino and carboxy termini. The shortest peptide was a 13-mer (residues 33-45), and the longest peptide was a 19-mer (residues 31-49). The two most abundant were 31-47 (1.3 pmol) and 31-46 (1 pmol), while the least abundant were 31-45 (40 fmol) and 32-45 (4 fmol). Only 0.3% of the total class II molecules were occupied by this family of HEL peptides. The amount of the 31-47 peptide, the predominant member of this series, was 22 times lower than that of 48-62, the major epitope of HEL. The 31-47 peptide bound about 20-fold weaker to I-Ak compared with the dominant 48-62 peptide. Thus, the lower abundance of the minor epitope correlated with its weaker binding strength.
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PMID:Isolation and quantitation of a minor determinant of hen egg white lysozyme bound to I-Ak by using peptide-specific immunoaffinity. 983 91

We discuss three areas of antigen presentation and macrophage biology being investigated in the laboratory. Using hen egg-white lysozyme as a protein antigen, all the segments of the molecules selected by the class II histocompatibility molecule I-A(k) were identified and characterized. The display of each family of peptides was explained biochemically and quantitated. Conformational isomers of a peptide-major histocompatibility complex (MHC) complex were identified. The relationship between the amounts of peptide-MHC displayed by the antigen-presenting cells and two biologic responses, central thymic selection and T-cell responses after immunization in adjuvant, were examined. The class II MHC molecule of the nonobese diabetic I-Ag7 is being examined for its properties of peptide selection. The objective is to identify the diabetogenic peptides, as well as the repertoire of protein antigens from beta-cells that trigger autoantibodies. The I-Ag7 molecule selects peptides that show very distinctive sequence motifs: one or more acidic residues at the carboxy terminus that interact at the P9 pocket of the binding groove. Finally, the investigations in listeriosis examined the early events in immune induction. More important, we found that Listeria causes marked apoptosis of lymphocytes around infective foci resulting from the apoptogenic properties of the pore-forming molecule Listeriolysin O.
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PMID:Antigen presentation: lysoyme, autoimmune diabetes, and Listeria--what do they have in common? 1610 79

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