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)

Partially inbred, MHC homozygous miniature swine have been used to study the nature of the human xenogeneic cellular immune response to swine Ags in vitro. Human T cells responded to xeno-MHC Ags in MLR at least as well as they did to allo-MHC Ags and appeared to share similar requirements for APC of either stimulator (direct pathway) or responder (indirect pathway) derivation. In addition, mAb-blocking experiments indicated that the majority of the primary human anti-pig xeno-response was directed toward porcine MHC class II Ags and involved interaction with the human CD4 accessory molecule. Finally, the availability of intra-MHC recombinant haplotypes in our herds has made it possible to map genetically the antigenic specificities recognized in human anti-swine cellular responses. For this purpose, T cell clones were generated from human anti-swine MLR cultures and were tested for reactivity to stimulator cells from MHC homozygous and recombinant haplotypes. Clear evidence for antixenogeneic MHC Ags was observed. In all cases in which allelic differences between haplotypes were detected (the majority of clones), the reactivity could be mapped to the class II region of stimulator haplotypes. In addition, cross-reactivity between haplotypes was consistent with known sequence similarities between DR beta-chains. Our results indicate, therefore, that the human anti-porcine T cell response is similar in strength and specificity to an allogeneic response, and that the TCR repertoire, accessory molecule interactions, and cytokine production required for both direct and indirect pathways of recognition in the human anti-porcine MHC class II responses are functionally intact.
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PMID:Human anti-porcine xenogeneic T cell response. Evidence for allelic specificity of mixed leukocyte reaction and for both direct and indirect pathways of recognition. 759 37

A subset of endogenously synthesized Ags can be processed for class II-restricted presentation, probably through multiple mechanisms. Processing of exogenous Ags for class II-restricted presentation appears to occur in unique endosomal processing compartments with lysosomal characteristics including the presence of the lysosomal membrane protein LAMP-1. Therefore, we attempted to enhance the efficiency of class II-restricted presentation of an endogenous Ag, the HIV-1 envelope (env) protein, by specifically targeting the Ag to class II processing compartments through the pathway followed by LAMP-1. Because the env protein associates tightly with CD4 shortly after synthesis, we first targeted the env protein using a chimeric CD4 protein consisting of the extracellular domain of CD4 and the transmembrane and cytoplasmic domains of LAMP-1. When co-expressed with this chimeric protein, the env protein was efficiently localized to lysosome-like compartments. Enhanced stimulation of env-specific CD4+ T cell clones by APC expressing the env protein and the CD4-LAMP-1 chimera was readily demonstrated in both cytotoxicity assays and proliferation assays. We also targeted the env protein directly as a chimeric protein consisting of the extracellular domain of the env protein and the transmembrane and cytoplasmic domains of LAMP-1. The proliferative response of env-specific CD4+ T cell clones to the env-LAMP-1 chimera was greatly enhanced compared with wild-type env protein, especially when limiting numbers of stimulator cells were used. The enhanced stimulatory capacity of APC expressing LAMP-1-targeted Ags has important implications for vaccine design.
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PMID:Lysosome-associated membrane protein-1-mediated targeting of the HIV-1 envelope protein to an endosomal/lysosomal compartment enhances its presentation to MHC class II-restricted T cells. 763 36

To investigate the role of T cells in drug allergy, we stimulated PBMC from penicillin-allergic patients with reactive penicillin G itself or penicillin G coupled with human serum albumin (BPO-HSA). T cell clones specific for penicillin G or BPO-HSA were established and their phenotype and reactivity to both forms of the beta-lactam were analyzed. T cell clones stimulated by penicillin G were CD4 and CD8 positive, whereas BPO-HSA stimulated the growth of CD4+ T cells. The penicillin G-specific clones were HLA class I or class II restricted and processing was not required as fixed APC could still present penicillin G. In contrast, BPO-HSA has to undergo processing to stimulate BPO-HSA-specific T cell clones. In addition to classical APC, activated MHC class II expressing T cells could also restimulate the penicillin G-specific clones, indicating that various cell types might serve as APC. Penicillin G and BPO-HSA-specific T cell clones produced a heterogeneous cytokine pattern as most clones produced high amounts of IL-2, IFN-gamma, TFN-alpha, and rather variable levels of IL-4 and IL-5. Since no Ag processing was required, penicillin G may stimulate T cells by binding directly to MHC molecules on the cell surface or to their embedded peptide. Alternatively, it may bind to soluble proteins like HSA, which are processed and subsequently presented in an immunogenic form. These different modes of presentation, which elicit a variety of immunological reactivities, may explain the great heterogeneity of the clinical pictures seen in penicillin allergy.
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PMID:Heterogeneous T cell responses to beta-lactam-modified self-structures are observed in penicillin-allergic individuals. 765 Mar 95

Recent results indicate that two signals are required for activation of mature T cells. The first is delivered through the TCR, and the second is delivered through receptors that bind various ligands expressed on APC. For example, it has been shown that B7/BB1, which is expressed on many APC, can costimulate T cell activation by binding to CD28 or CTLA4, which are expressed on mature T cells. In contrast, little is known of the signals required for negative selection of autoreactive thymocytes. Thus, we have investigated this issue by using an in vitro culture system in which thymocytes from mice that are transgenic for a class II MHC-restricted TCR are cultured with murine fibroblast lines that express class II MHC. Under these conditions, CD4+CD8+ (DP) thymocytes undergo an Ag-dependent programmed cell death, which likely represents the negative selection of autoreactive thymocytes that would occur in an intact thymus. Using this culture system, we first found that both TCR- and APC-dependent stimuli were required in order to induce deletion of DP thymocytes. Anti-TCR antibodies alone did not cause deletion of DP cells, but merely induced a decrease in their expression of CD4 and CD8 to produce a DPdull phenotype. Addition of APC was then required for deletion of these DPdull cells. One obvious candidate for the costimulatory signal expressed by these APC was B7. Three different experimental approaches indicated, however, that B7 was not the APC-dependent signal required for deletion of DP thymocytes. Thus, these results suggest that negative selection of autoreactive thymocytes is a two-step process in which stimulation of the TCR causes downregulation of CD4 and CD8 on DP thymocytes, and then an unknown ligand expressed on APC stimulates a receptor on DP thymocytes to induce their deletion.
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PMID:Two signals are required for negative selection of CD4+CD8+ thymocytes. 768 88

Recent work has indicated the significance of IL-4- and IL-5-secreting allergen-specific human Th2 lymphocytes in the control of immune responses to allergens in atopic individuals. The precise allergenic epitopes that activate these allergen-specific Th2 cells are, however, hardly known. We analyzed the epitope-specificity of T lymphocytes specific for Der p II, one of the major allergens of house dust mite Dermatophagoides pteronyssinus. Using a panel of overlapping synthetic peptides that span the entire Der p II molecule, we could demonstrate that polyclonal Der p II-specific T cell lines prepared from the peripheral blood of five atopic patients can react with at least 10 different epitopes of the molecule. Each donor showed a different pattern of reactivity with the synthetic peptides, suggesting that Der p II contains multiple T cell epitopes that may differ from individual to individual. We studied the specificity of the T cell response to Der p II in more detail in one atopic patient using a short term polyclonal T cell line that strongly reacted to one single peptide (116-129) of the allergen. From this patient we established a panel of 11 Der p II-specific TLC. Ten TLC were of the CD3+ CD4+ phenotype and showed a high IL-4/IFN-gamma production ratio, whereas another TLC expressed CD3 and CD8 and failed to secrete substantial IL-4 and IFN-gamma. The use of at least four different TCR V beta gene segments was shown within this panel TLC. All TLC tested recognized the allergen in an HLA-DR1-restricted manner. Although this patient reacted to only one peptide on the polyclonal level, two T cell epitopes were identified on the clonal level by using synthetic peptides and autologous APC to stimulate the TLC. Combining data of CD4/CD8 expression, TCR V beta usage, and epitope specificity, at least six different types of Der p II-specific TLC could be identified within this patient. Binding of IgE to all synthetic peptides of Der p II is low and of low affinity, which may be of particular importance with respect to possible desensitization protocols using such peptides.
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PMID:T cell epitopes of house dust mite major allergen Der p II. 768 99

This study demonstrates that a syngeneic specific cytotoxic T lymphocyte (CTL) response to a class I major histocompatibility complex (MHC) positive tumour requires dual processing and recognition of tumour antigens. One type of antigen is processed and expressed in association with class I MHC at the surface of intact tumour cells. It is recognized by CD8 alpha, beta TCR CTL in vitro and by protective immune T cells in vivo and thus functions as a tumour-associated transplantation antigen (TATA). The other type of antigen is processed and expressed by distinct host APC in association with class II MHC. This is recognized by immune CD4 T cells which function as essential helper cells in the generation of the CD8 CTL response. These conclusions are supported by cell depletion and reconstitution experiments as well as by blocking experiments with monoclonal antibodies using the highly metastatic class II negative murine lymphoma ESb as a model system. The existence of two types of cognate T cell responses in a syngeneic anti-tumour response was directly proved by the establishment of two types of tumour specific T cell lines which required as co-stimulator either MHC class II positive APC or IL-2. In suboptimal mixed lymphocyte tumour cell cultures either of these co-stimulator functions was found to be limiting the overall anti-tumour CTL response. The generation of the tumour specific CTL response could be blocked by monoclonal antibodies against all the molecules involved in the cognate interactions (i.e. class I MHC, CD8, class II MHC, CD4 and TCR) but not by anti-CD2 or anti-IgG. The strict requirement for helper cells and APC could be bypassed by the addition of recombinant IL-2 but optimal triggering of CD8 CTL-precursor required viable tumour stimulator cells. This well characterized in vitro assay may be useful (i) for monitoring the immune status of CD4 and CD8 immune T cells separately, for instance of tumour bearing and/or treated animals and (ii) for the development and testing of potent tumour cell vaccines with T cell stimulatory and/or co-stimulatory activities.
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PMID:Tumour-specific CTL response requiring interactions of four different cell types and recognition of MHC class I and class II restricted tumour antigens. 790 Nov 50

Receptor-mediated uptake increases by several orders of magnitude the efficiency of APC to internalize Ag, and is stringently required for the Ag-presenting function of T lymphocytes due to their inability to take up Ag non-specifically. We have previously reported that hepatitis B envelope antigen (HBenvAg) can be internalized by T cells via transferrin receptor (TfR). To evaluate if Ag targeting to receptors expressed on APC could be an effective tool for promoting Ag uptake and presentation, we tested the capacity of activated T cells not expressing TfR to induce HBenvAg-specific T-cell responses when pulsed with a hybrid particle containing HBenvAg coupled to gp120 of human immunodeficiency virus (HIV), exploiting the ability of gp120 to bind to CD4 receptor. We found that CD4+/TfR- T cells pulsed either with the hybrid particle or peptide (S193-207) but not with S, L Ag, a recombinant form of HBenvAg, induced a specific proliferative response of a T-cell clone recognizing peptide (S193-207) of HBenvAg. The finding that the addition of anti-CD4 monoclonal antibody (mAb) before the pulsing of CD4+/TfR- T cells with the hybrid particle drastically blocked the specific T-cell response, together with the finding that CD8+/TfR- T cells were unable to serve as APC even if pulsed with this molecule, demonstrated that CD4 receptor was crucial for the HBenvAg internalization. On the other hand, HBenvAg presentation by CD4+/TfR+ T cells pulsed with the hybrid particle was inhibited only when both anti-CD4 and anti-TfR were added before the pulsing. These results suggest that Ag targeting to APC receptors may be usefully exploited to improve Ag-presentation efficiency in potential immunotherapeutic approaches.
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PMID:Antigen targeting to antigen-presenting cells enhances presentation to class II-restricted T lymphocytes. 790 75

To examine the specificity of T helper cells activated during murine graft-vs-host disease (GVHD), T cell hybridomas from GVHD spleens and livers were generated and analyzed. CTL-depleted C57BL/6 (B6) donor cells were injected into irradiated (B6 x bm12)F1 or (bm1 x bm12)F1 recipient mice. Five or fourteen days later, cells from livers and spleens were fused directly with the TCR-deficient (alpha beta)- BW5147 thymoma line. The in vivo-activated T cells produced hybridomas as efficiently as either T cells activated in a primary mixed lymphocyte reaction or expanded in vitro after isolation from GVHD mice. Overall, 91% (396 of 437) of hybridomas generated from GVHD animals responded to immobilized anti-CD3 and 56% (220 of 396) of these hybridomas responded specifically to APC expressing host bm1 or bm12 alloantigens. More than 80% of bm12-specific hybridomas expressed CD4; all (53 of 53) of the bm12-specific hybridomas tested reacted to homozygous bm12 APC. Of the alloreactive T hybridomas generated from B6-->(bm1 x bm12)F1 GVHD mice, 7% responded to bm1 APC. Five bm1-specific hybridomas were analyzed further. One CD4+ hybridoma recognized a bm1 peptide presented by self I-Ab and was blocked by anti-Ia Ab; the other four hybridomas, two of which also expressed CD4, responded to transfected L cells expressing H-2Kbm1 and were not inhibited by anti-Ia Ab. These results indicate that a high percentage of CD4+ T hybridomas generated from freshly isolated T cells activated in vivo during GVHD are specific for host MHC class II or class I alloantigens.
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PMID:Reactivity of hybridomas derived from T cells activated in vivo during graft-versus-host disease. 796 59

We characterized the response of resting human CD8 T cells to allogeneic endothelial cells (EC). Both resting and IFN-gamma-pretreated EC stimulate similar CD8 T cell proliferative responses (peak, day 5 to 6), whereas only IFN-gamma-pretreated EC stimulate CD4 T cells. The response increases with increasing numbers of CD8 T cells from 25,000 to 400,000/well. The proliferation of CD8 T cells is inhibited by mAbs reactive with CD8 or HLA-A and -B molecules but not with CD4 or HLA-DR. mAb blocking studies show a role for CD2, LFA-3, and CD59, but not for intercellular adhesion molecule-1, intercellular adhesion molecule-2, very late activation Ag-4, vascular cell adhesion molecule-1, CD28, or CD28 ligand, as costimulatory molecules. The stimulation of resting CD8 T cells by EC causes secretion of IL-2 and IFN-gamma but not IL-4. Both proliferation and IFN-gamma secretion are inhibited by mAb to the IL-2R alpha subunit (CD25). Limiting dilution analysis suggests that approximately 1 in 20,000 resting CD8 T cells secrete IL-2 in response to allogeneic EC. EC stimulate greater than 1 in 10,000 CD8/CD45RO+ cells but fewer than 1 in 40,000 CD8/CD45RA+ cells, which indicates that primarily memory CD8 T cells respond to EC. Coculturing CD8 cells with EC stimulates a sufficient level of endothelial class II MHC expression to subsequently support a CD4 T cell proliferative response. The ability of memory CD8 T cells to proliferate against allogeneic EC, a nonclassical APC, and their ability to stimulate EC may contribute to the initiation of vascularized organ graft rejection.
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PMID:Antigen-presenting function of human endothelial cells. Direct activation of resting CD8 T cells. 798 46

CD4+ Th cell infiltration into the brain and the activation by cellular elements of the central nervous system (CNS) are thought to be important steps in the initiation of CNS autoimmune diseases. T cell activation requires Ag-specific stimulation and additional costimulatory signals provided by the APC. Here we describe how murine brain microvessel endothelial (En) cells and smooth muscle/pericytes (SM/P) selectively induce the Ag-specific activation of different Th1 and Th2 CD4+ T cell clones. Th1 and Th2 cell clones were used that were specific for the same peptide Ag in the context of the same class II allotype. SM/P preferentially activated Th1 cell clones, whereas En cells activated Th2 cell clones better, as reflected by cell proliferation and production of IL-2 by SM/P-activated Th1 clones and IL-4 by Th2 clones. There was no difference in the level of expression of CD4, CD2, or LFA-1 molecules between these Th cell clones, and anti-CD4, CD2, LFA-1 or ICAM-1 mAb did not differentially affect Ag-induced proliferation among the clones. Moreover, antibody to CD28 did not influence Ag presentation by brain microvessel En or SM/P cells to Ag-specific Th1 and Th2 clones. These results suggest that: 1) different The subsets might require different signals for their activation; 2) different APC might provide different costimulatory signals for Th cell subsets; and 3) brain microvessel En and SM/P might play a differential role in induction of autoreactive T cell responses in the CNS.
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PMID:Differential activation of Th1 and Th2 CD4+ cells by murine brain microvessel endothelial cells and smooth muscle/pericytes. 810 Aug 44


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