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)

Two major proteins, termed proteins A and B, and one minor species, termed protein C, have been purified to homogeneity from dilute acid extracts of dormant spores of Bacillus megaterium. These three species comprise approximately 80% of the protein in the dilute acid extracts and account for 60 to 75% of the protein degraded during spore germination. All three proteins have low molecular weights (7,000 to 10,000), high isoelectric points (greater than 9.8), alanine as the NH2-terminal amino acid, are more hydrophilic than most proteins, and all lack cysteine, cystine, and tryptophan. In addition all three proteins are extremely sensitive to a wide variety of proteolytic enzymes, much more so than "average" proteins such as serum albumin, lysozyme, and hemoglobin. These proteins also bind to both purified DNA and to a nuclear body from dormant spores. Although this binding gives little or no protection to proteins A and B from proteolysis, it does result in elevation of the melting temperature of the DNA by as much as 20degrees.
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PMID:Purification and properties of some unique low molecular weight basic proteins degraded during germination of Bacillus megaterium spores. 80 43

Class II MHC molecules on the surface of an APC present immunogenic peptides derived mainly from exogenous proteins to CD4+ T cells. During its transport to the cell surface, class II molecules intersect the endocytic pathway where they acquire peptides derived from endocytosed proteins. However, class II-restricted presentation of endogenously derived peptides can also occur. The current studies were undertaken to examine the ability of different types of APC to generate and present four different T cell determinants derived from an endogenous, nonsecreted, truncated form of hen-egg white lysozyme (HEL[1-80]-Kk). This was compared with the ability of these APC to generate the same determinants from exogenous HEL. All the peptides derived from endogenous HEL[1-80]-Kk tested, were presented by B cells to HEL-specific T cell hybridomas with an efficiency similar to presentation of the same determinants from exogenous HEL. In contrast, an I-Ak-bearing rat fibroblast was unable to generate the HEL peptide 25-43 from exogenous HEL, but could efficiently produce it from endogenous HEL[1-80]-Kk. The results indicate first, that peptides derived from an endogenous Ag can be presented by MHC class II molecules with an efficiency comparable to that of the presentation of the exogenous Ag. Second, that Ag-presenting B cells can generate the same repertoire of antigenic peptides from endogenous Ag as those generated from the exogenous protein. And third, that in contrast to B cells, certain "nonprofessional" APC can generate, from an endogenous protein, T cell determinants distinct from those generated after endocytosis of the exogenous protein. These results suggest that processing of exogenous and endogenous Ag by different APC take place in different intracellular compartments.
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PMID:Processing of an endogenous protein can generate MHC class II-restricted T cell determinants distinct from those derived from exogenous antigen. 165 43

There is controversy regarding the ability of short term (2 to 3 days) cultured epidermal Langerhans cells (cLC) to process and present intact protein Ag to primed T cells. Some studies have shown that cLC are potent APC for both haptens and intact protein Ag, whereas in others cLC have been unable to process and present intact protein Ag. In an attempt to resolve this controversy, we tested the ability of Langerhans cells from several strains of mice to process and present intact protein Ag to T cell clones and T cell hybridomas. We found that both cLC and freshly prepared Langerhans cells from various Iak mice, including BALB.k mice, process and present intact protein antigens (i.e., hen egg lysozyme, cytochrome c, and OVA) to T cells. These functions are retained in cLC cultured for 7 days. In contrast, cLC from Iad mice do not process intact protein Ag, such as hen egg lysozyme and myoglobin, although they can present relevant peptides to specific T cells and are potent stimulators of allogeneic responses. Furthermore, cLC from (Iak x Iad)F1 mice process and present intact protein Ag to Iak-restricted T cells, but not to Iad-restricted T cells. Although cLC that processed and presented intact protein Ag to T cells exhibited enhanced class II MHC expression, they were, on a per cell basis, somewhat less efficient than were fresh Langerhans cells. Finally, we found that if Iad Langerhans cells are pulsed with intact protein Ag and then cultured for 3 days, they are then fully capable of inducing Ag- and MHC-specific T cell proliferation.
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PMID:The ability of cultured Langerhans cells to process and present protein antigens is MHC-dependent. 184 34

Helper (CD4+) T lymphocytes recognize protein Ag as peptides associated to MHC class II molecules. The polymorphism of class II alpha- and beta-chains has a major influence on the nature of the peptides presented to CD4+ T lymphocytes. For instance, T cell responses in H-2k and H-2b mice are directed at different epitopes of the hen egg lysozyme (HEL) molecule. The current studies were undertaken with the aim of defining the role of mixed haplotype I-A (alpha k beta b and alpha b beta k) molecules in T cell responses to HEL in (H-2k x H-2b)F1 mice, as well as the nature of the immunogenic peptides of HEL recognized in the context of I-A alpha k beta b and I-A alpha b beta k. A series of HEL-reactive T cell lines and hybridomas derived from MHC class II heterozygous (C57BL/6 x C3H F1) mice were established. Their responsiveness to HEL and synthetic HEL peptides was analyzed with the use of L cells transfected with either I-A alpha k beta b or I-A alpha b beta k as APC. Out of 28 clonal T cell hybridomas tested, 13 (46%) only responded to HEL presented by I-A alpha k beta b, 11 (40%) by I-A alpha b beta k (and to a minor extent I-A alpha k beta k), only 4 (14%) were primarily restricted by I-Ak, and none by I-Ab. All the I-A alpha k beta b-restricted T cell hybridomas responded to the HEL peptide 46-61 and to its shorter fragment 52-61, even at concentrations as low as 0.3 nM. As this determinant has been previously defined as immunodominant for I-Ak but not for I-Ab mice, these results suggest a role for the I-A alpha k chain in the selection and immunodominance of HEL 52-61 in H-2k mice. The fine specificity of I-A alpha k beta b-restricted T cell hybridomas for a series of different HEL peptides around the sequence 52 to 61 suggests that peptide 52-61 binds to I-A alpha k beta b with higher affinity than to I-A alpha k beta k. The peptides recognized in the context of I-A alpha b beta k and I-A alpha k beta k were not identified.
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PMID:Co-dominant restriction by a mixed-haplotype I-A molecule (alpha k beta b) for the lysozyme peptide 52-61 in H-2k x H-2b F1 mice. 197 Mar 51

We have analyzed the stability of Ag-class II complexes on the surface of live APC. It was found that the disappearance of complexes formed by I-Ed and the hen egg lysozyme 107-116 peptide is twice as rapid on the surface of live, as compared to glutaraldehyde-fixed APC. Moreover, the addition of peptides with a high affinity for I-Ed could reduce the half-life of Ag-class II complexes on either live or fixed APC. The same effect was detectable using purified class II molecules adhered on plastic microtiter wells, and even in the case of complexes formed in vitro between radiolabeled Ag and purified class II molecules. This effect of accelerated dissociation appeared to be specific because only I-Ed binding peptides were able to accelerate the dissociation of the hen egg lysozyme 107-116/I-Ed complex either on the surface of cells or in purified form in solution, and high affinity I-Ed binders did not affect the half-life of purified OVA 323-339/I-Ad complexes. These results demonstrate that free ligand can influence the kinetics of dissociation of class II-peptide complexes, and therefore suggest that a mechanism other than the classical first order kinetics may be involved in this process.
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PMID:Free ligand-induced dissociation of MHC-antigen complexes. 202 78

The binding of protein antigens to APC with heterocrosslinked bispecific antibodies (HBAs) enhances their processing and presentation to Th cells in vitro. Here we have asked whether HBAs could also increase immune responses in vivo. We immunized mice with hen egg lysozyme (HEL) in the presence or absence of HBA, and followed antibody production after the primary challenge and after a secondary boost. We found that HBAs that bind antigen to MHC class I or II molecules, to Fc gamma R, but not to surface IgD, enhance the immunogenicity of HEL. HBAs that bound HEL to MHC class II molecules, for examples, decreased the amount of antigen required to elicit a primary anti-HEL antibody response in mice by 300-fold, and the amount required to prime for a secondary response by 10(3)- to 10(4)-fold. In fact, HBAs were as effective as IFA in generating antibody responses. Since adjuvants cannot be used in humans, HBAs could prove useful for immunizing people, especially in cases where, due to scarcity or toxicity, minute doses of antigen must be used.
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PMID:Enhanced antigen immunogenicity induced by bispecific antibodies. 235 31

The presentation of protein Ag with MHC class II proteins involves the uptake of the protein Ag by endocytosis followed by processing, probably proteolysis, in an intracellular acidic compartment. However, there remains considerable controversy as to the precise route taken by the antigen and the MHC class II protein during this process. The unusual stability of Ag-MHC class II protein complexes has led to speculation that antigen can only associate with newly synthesized MHC class II molecules. An alternate possibility is that the MHC class II binding site can be regenerated within the cell during internalization and recycling of MHC class II proteins. To address these possibilities, three different murine B lymphoma lines were tested for their ability to process and present native protein Ag in the presence of the protein synthesis inhibitor cycloheximide or the protein synthesis inhibitor cycloheximide or the protein export inhibitor, Brefeldin A. Both agents blocked the presentation of native OVA or native hen egg lysozyme to Ag-specific T cell hybridomas. No effect was seen on peptide presentation or on presentation to allo- or autoreactive T cells. Inasmuch as Brefeldin A has been previously shown to block protein export without affecting protein internalization or protein degradation in the endocytic pathway, the simplest interpretation of these data is that antigenic fragments generated in the APC after uptake by the endocytic pathway, preferentially associate with newly synthesized rather than mature MHC class II proteins.
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PMID:MHC class II-restricted presentation of native protein antigen by B cells is inhibitable by cycloheximide and brefeldin A. 237 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

Bispecific heteroconjugate antibodies can bind soluble protein Ag to APC and thereby enhance Ag presentation. We used such antibodies to bind hen egg lysozyme (HEL) to various structures on the surface of normal splenic B cells to determine which structures would provide the best targets for enhanced presentation. We found that HEL was presented efficiently to hybridoma T cells if bound to sIgD, sIgM, or class I or II MHC molecules, but not at all if bound to Fc gamma RII, or B220 molecules on B cells. The efficiency of presentation of HEL was measured as a function of the amount of 125I-HEL bound per cell. HEL was presented with 5 to 10 times greater efficiency when bound to sIg, than when bound to MHC molecules. When compared on the basis of the amount of HEL bound, sIgD and sIgM functioned equally as target structures, as did class I and class II MHC molecules. Large amounts of HEL bound to B220, but no presentation resulted, indicating that focusing HEL to the APC surface was not sufficient for presentation to occur. HEL was internalized rapidly and in large amounts when bound to sIgD or sIgM, but slowly and in small amounts, when bound to class I or class II MHC molecules. Thus, a rapid rate of internalization may in part explain the high efficiency of Ag presentation after binding to sIg. However, the small amount of HEL internalized via MHC molecules was utilized efficiently for presentation. These results indicate that sIgM and sIgD serve equally on normal B cells to focus and internalize Ag and enhance Ag presentation, but that class I or class II MHC molecules can also be used to internalize Ag and enhance Ag presentation, perhaps by a separate intracellular processing pathway.
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PMID:Efficiency of antigen presentation after antigen targeting to surface IgD, IgM, MHC, Fc gamma RII, and B220 molecules on murine splenic B cells. 247 43

In a pilot study paraffin-embedded sections of open skin wounds (stab and slash wounds, lacerations) were investigated to determine the presence of a vital reaction. Granulocytes were detected by naphthol AS-D chloroacetate esterase, the enzyme "lysozyme", and eight proteinase inhibitors by the indirect immunoperoxidase method. The tissue specimens were taken from consecutive autopsy material. The survival time could be determined in 14 cases (10-165 min) and was unknown in 12 other cases of sudden death due to injury of the major vessels or heart. The controls were cases with injuries inflicted after and cases of sudden death due to massive blunt trauma served death. In vital injuries, accumulations of proteinase inhibitors, particularly alpha-2-macroglobulin and alpha-1-antichymotrypsin, were demonstrable in the corium parallel to the wound surface. In comparison, the reaction of proteinase inhibitors that neutralize only enzymes participating in blood coagulation or complement activation (C1-esterase inhibitor and protein C) was absent or weak. Protein accumulation was observed only sporadically in cases of sudden death and never in cases with wounds inflicted after death. No relationship could be established between semiquantitatively estimated staining and survival time. Granulocytes and lysozyme were first observed in the corium after a survival time of more than 60 min.
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PMID:[Release of proteinase inhibitors as a vital reaction in the early post-traumatic interval]. 247 1

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