Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0033036 (APC)
10,214 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

MHC class I and class II molecules transport foreign and self peptides to the cell surface and present them to T lymphocytes. Detection of these peptide:MHC complexes has thus far been limited to analysis of the response of a T cell. Previously, we showed that a mAb, Y-Ae, reacts with 10 to 15% of class II molecules on peripheral B lymphocytes and on cells in the thymus medulla but not thymus cortex in mice that express both I-Ab and I-Eb molecules. Elsewhere, we show that Y-Ae detects a self E alpha peptide bound to I-Ab molecules. Data presented here suggest that the antibody binds over the peptide binding groove of class II molecules, and, like a TCR, appears to recognize both the self peptide and polymorphic class II residues. In addition to B lymphocytes, the Y-Ae determinant is expressed at comparable levels on other APC, including macrophages and dendritic cells. Finally, the antibody does not react with invariant chain-associated class II complexes, thus providing direct evidence that invariant chain:class II complexes and peptide:class II complexes are mutually exclusive. These data provide further evidence that immunologic self is of limited complexity, and have important implications for T cell selection, self tolerance, and autoreactivity.
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PMID:Monoclonal antibody detection of a major self peptide. MHC class II complex. 137 45

T lymphocytes usually recognize endogenously encoded Ag in the context of MHC class I molecules, whereas exogenous Ag is usually presented by MHC class II molecules. In vitro studies in model systems suggest that presentation of endogenous Ag by class II molecules is inhibited by the association of class II with its invariant chain (Ii). In the present study we test this hypothesis in an in vivo system in which endogenously encoded tumor peptides are presented by tumor cell MHC class II molecules. In this system, transfection of syngeneic MHC class II genes (Aak and Abk) into a highly malignant, Ii negative, mouse tumor (SaI sarcoma) produces an immunogenic tumor (SaI/Ak) that is rejected by the autologous host. The class II+ transfectants also effectively immunize autologous A/J mice against a subsequent challenge of wild-type class II- tumor cells. We have hypothesized that the SaI/Ak transfectants induce protective immunity because they function as APC for endogenously synthesized tumor peptides, and thereby stimulate tumor-specific Th cells, by-passing the need for professional APC. To test the role of Ii as an inhibitor of presentation of endogenous peptides, SaI/Ak tumor cells were supertransfected with Ii gene (SaI/Ak/Ii cells), and the tumorigenicity of the resulting cells determined. Nine SaI/Ak/Ii clones were tested, and their malignancy compared with that of SaI/Ak and SaI cells. Seven of the nine class II+/Ii+ tumor cells are more malignant than class II+/Ii- tumor cells in autologous A/J mice. Expression of Ii therefore restores the malignant phenotype, presumably by preventing presentation of endogenously synthesized tumor peptides. Ii therefore regulates Ag presentation and can be a critical parameter for in vivo tumor immunity.
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PMID:Invariant chain alters the malignant phenotype of MHC class II+ tumor cells. 152 84

We here demonstrate that ligand binding to MHC class I molecules induces homotypic cell adhesion of lymphocytes and monocytes. mAb to beta 2-microglobulin caused sustained, largely LFA-1-independent adhesion whereas mAb to the MHC class I alpha H chain caused transient LFA-1-dependent adhesion. Both the protein kinase C inhibitor sphingosine and the tyrosine kinase inhibitor genistein abrogated MHC class I-mediated cellular adhesion. These results indicate that MHC class I molecules transduce signals that induce cell adhesion and suggest that interaction between MHC class I-restricted T cells and APC may result in reciprocal enhanced adhesiveness of these cells.
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PMID:Engagement of MHC class I molecules induces cell adhesion via both LFA-1-dependent and LFA-1-independent pathways. 154 17

In this article, the mechanisms by which infection at a distant site could lead to ReA and whether they could explain the association of ReA with HLA-B27 have been discussed. We propose that ReA synovitis is primarily due to specific synovial T-cell proliferation to fragments of the triggering bacterial found in the joint. Nonspecific T cells amplify synovitis with antibodies playing only a secondary role. First, we have shown that the triggering bacterial antigen is present in a nonviable form in ReA synovium and that this, not cross-reactive joint autoantigen, stimulates the specific synovial immune response. Second, the studies of the humoral immune response in ReA have been reviewed. Further evidence of bacterial persistence in the joint comes from work demonstrating intrasynovial bacteria-specific antibody synthesis. Continuing maturation of the antibody response also points to persisting antigen. In enteric but not genitourinary ReA, the humoral response is mainly IgA, implying chronic stimulation of the gut mucosa. Analysis of the molecules against which the humoral response is directed has shown no difference between yersinia arthritis and yersiniosis, but in CTA, the response to the 57kD and 59kD antigens differs from CT urethritis suggesting they may be arthritogenic. Finally, the antibody response may be absent in ReA patients rendering antibody titres diagnostically less useful and confirming their secondary role in the pathogenesis of synovitis. Third, studies of cellular response in ReA have been analyzed. We show there is a specific synovial MNC proliferative response to fragments of the triggering bacteria found in the joint, which is potentially of diagnostic use. The proliferation is due to CD4+ and CD8+ T cells and restricted by MHC class I and II antigens. This antigen-specific T-cell response is accompanied by an antigen-independent recruitment of nonspecific T cells, which may contribute to the amplification of synovitis. The importance of the synovial APC in determining the synovial immune response is unarguable but the exact mechanisms are unclear. Further details on the possible role of HLA-B27 in the presentation of arthritogenic peptides and on the exact identity of the antigenic epitopes recognized in ReA must await analysis of a large panel of T-cell clones. Finally, it is hoped that advances in this field will lead to specific and effective immunologic therapies or vaccines for this currently untreatable disease.
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PMID:Antigenic responses in reactive arthritis. 156 9

About a third of mouse splenic macrophage (M phi) progenitors give rise to cloned progeny that constitutively induce the selective proliferation of naive allogeneic CD8+ T cells in a CD4+ helper cell-independent manner--a response that is inhibited by mAb to the MHC class I molecules present on the M phi. Colony-mixing experiments indicated that the failure of most M phi clones to present allo-Ag was not due to their suppression of the ability of CD8+ cells to respond, nor did the nonpresenting clones interfere with the activity of the allo-Ag presenting M phi. The allo-Ag presenting phenotypes were found to be a stable characteristic in a panel of cell lines derived from individual clones of M phi. Analysis of the cell lines revealed that the differential expression of allo-APC activity could not be attributed to the levels of MHC class I molecules; rather, the cell lines and the primary M phi clones differ in their expression of a cell-associated costimulator molecule that likely functions to induce the expression of the IL-2R on and the secretion of IL-2 from the T cells.
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PMID:A subset of mouse splenic macrophages can constitutively present alloantigen directly to CD8+ T cells. 167 21

Monocyte/macrophages (MM) were isolated from HIV-1 seronegative individuals, infected with HIV-1 and examined for their ability to infect autologous T lymphocytes with and without concomitant presentation of exogenous Ag. HIV-1-infected MM presented tetanus toxin (TT) and streptokinase to T cells (as measured by [3H]thymidine incorporation) comparable to presentation by uninfected MM. In these studies, it was observed that HIV-1-infected MM without additional exogenous Ag stimulated autologous T lymphocytes, however, to a lesser degree than with TT and streptokinase. Virus production in T cells appeared to be relative to the degree of stimulation with the highest levels of stimulation and infection observed when T cells were exposed to HIV-1-infected TT-presenting MM. Studies were carried out to examine some of the restricting elements in MM-mediated infection of T lymphocytes with and without TT presentation. Antibodies to CD4, as well as soluble immunopurified gp120, blocked cell-mediated infection indicating that infection of T cells was through the CD4 molecule as has been demonstrated with cell-free virus. In addition, soluble gp120 inhibited Ag presentation by HIV-1-infected and uninfected MM. mAb to MHC class II Ag HLA-DR and -DP blocked T cell infection by HIV-1-infected MM with and without presentation of TT. No effect was observed with mAb to MHC class I Ag. These results indicate that virus transmission to T lymphocytes can be mediated by HIV-1-infected MM and that these cells maintain their function as APC. Activation of T cells appears to be important in the process of T cell infection in this system inasmuch as antibodies that block Ag presentation and thus a T cell proliferative signal inhibit infection.
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PMID:HIV-1 transmission and function of virus-infected monocytes/macrophages. 169 Feb 36

We have used a T-T hybridoma, RF33.70, to detect the MHC class I-restricted presentation of exogenous native OVA by thymic APC in vitro. Presentation of OVA with class I molecules by thymic APC requires intracellular processing. Phenotypic analyses indicated that low bouyant density, MHC class II+, FcR+ cells are capable of using this presentation pathway. In order to determine whether thymic APC have this function in vivo, thymic APC were isolated from mice after i.v. injection of native OVA. We find that OVA is presented in association with MHC class I, but not class II, molecules in the thymus. This is in contrast to splenic APC, which present exogenous OVA with both class I and class II molecules under these conditions. Our findings have implications for the repertoire of self-peptides that might be presented by thymic APC to developing T lymphocytes.
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PMID:MHC class I-restricted presentation of exogenous antigen by thymic antigen-presenting cells in vitro and in vivo. 172 62

T cell clones were generated from the peripheral blood of rhesus monkeys that had been immunized with a soluble Mr 185,000 Ag (SAI/II) derived from Streptococcus mutans. The clones were CD3+ CD8+ CD4- alpha beta TCR+ and were specifically stimulated to proliferate by SAI/II. The proliferative responses of the cloned cells were class I restricted, as demonstrated by reconstitution of the cloned T cells with APC matched at various MHC class I and II loci, as well as by inhibition with anti-class I and not anti-class II mAb. The function of the CD8+ cloned cells was examined in vitro for their effect on antibody synthesis by Ag-stimulated CD4+ cells and B cells from immunized animals. Indeed, four of the five clones suppressed SAI/II-specific IgG antibody synthesis when activated with SAI/II and the appropriate MHC-matched APC. Although activation of the suppressor clones was Ag specific, the effector function of the suppression of antibody synthesis was Ag nonspecific. The latter was probably mediated by lymphokines and, indeed, the culture supernatant generated by stimulating the cloned CD8+ cells with anti-CD3 mAb suppressed both the specific and nonspecific antibody synthesis. Cytotoxicity studies showed that all five CD8+ clones showed a low level of lectin-dependent cytotoxicity. However, because four of the five clones expressed significant suppression of antibody synthesis, the suppressor activity was unlikely to be a function of the weak cytotoxicity. The results suggest that immunization of rhesus monkeys with a soluble streptococcal Ag induced CD8+ alpha beta TCR+ T cell clones that show SAI/II-specific, MHC class I-restricted proliferative responses and nonspecific down-regulatory function of in vitro antibody synthesis.
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PMID:Characterization of streptococcal antigen-specific CD8+, MHC class I-restricted, T cell clones that down-regulate in vitro antibody synthesis. 183 37

The present study has attempted to elucidate the cellular mechanisms by which long-term established fetal pancreas allografts are rejected. We used an experimental model in which H-2b nude mice were made hyperglycemic by streptozotocin treatment and then engrafted with allogeneic fetal pancreas grafts. These grafts were functional in that engrafted animals returned to near normoglycemia while all animals left unengrafted subsequently died. The fetal pancreas grafts were allowed to reside in the immunoincompetent nude host for 6-9 months prior to T cell reconstitution, at which time animals were reconstituted with either negatively selected CD4+ or CD8+ H-2b T cell subpopulations. We found that a 6-9 month residence in an immunoincompetent host did not lead to a change in the immunogenicity of fetal pancreatic grafts in that both CD4+ and CD8+ T cell subsets were capable of rejecting these long-term established fetal pancreas grafts. The finding that isolated CD8+ spleen T cell subpopulations, which are only activated by antigen-presenting cells of donor origin bearing MHC class I alloantigen, were capable of effecting graft rejection suggested that APC of donor origin persisted in these long-term fetal pancreas allografts.
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PMID:T cell subsets mediating rejection of established fetal pancreas grafts and failure to observe graft adaptation. 211 26

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


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