UMLS:C0033036 - FACTA Search

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

Molecules of the TNF-R family have been shown to be essential in the regulation of lymphocyte growth and differentiation. The TNF-R family member CD27 binds to a type II transmembrane molecule belonging to the TNF gene family (CD27L) that is identical to the lymphocyte activation Ag CD70. Using transfected mouse fibroblasts expressing human CD70, we demonstrate here that interaction of CD27 with its ligand provides a potent second signal for cytokine production, induction of activation Ags, and proliferation of unprimed CD45RA+, and to a lesser extent, of primed CD45R0+ peripheral blood T cells. In contrast to costimulatory signals delivered via the CD28-ligand B7-1 (CD80), CD70 was found to induce relatively low IL-2, IL-4, and IL-10 but comparable TNF-alpha secretion. Proliferation of CD45RA+, but not of CD45R0+ T cells, was found to be largely resistant to blocking of IL-2/IL-2R interaction. Finally, the finding that CD70 and CD80 cooperate in the induction of T cell proliferation indicates that cooperation of both molecules may be essential for optimal T cell stimulation. The interaction between CD27 and its ligand CD70 might be of particular importance for the recruitment of T cells from the unprimed T cell pool. Moreover, as CD70 expression in vivo is confined to activated B and T lymphocytes, only a limited set of APC are able to generate this specific second signal for T cell expansion.
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PMID:Engagement of CD27 with its ligand CD70 provides a second signal for T cell activation. 787 36

Purified CD4+ T cells require TCR engagement and Ag-nonspecific co-stimulatory signals to produce IL-2 and proliferate. A number of recent studies have demonstrated that the interaction of the B7 molecule expressed on APC with the T cell-associated CD28 molecule provides a potent co-stimulatory signal to both freshly isolated CD4+ T cells and cloned Th1 cells. Earlier reports have described the role of cytokines, in particular IL-6 and IL-1, as costimulatory molecules for T cell activation. We previously reported that IL-6 and IL-1 synergize to co-stimulate proliferation of purified mouse CD4+ T cells in conjunction with anti-TCR mAb. In this report we explore the interaction of IL-6, IL-1, and CD28 signaling in the activation of mouse CD4+ T cells, and demonstrate that the co-stimulatory requirements of the cells vary depending on the mode of TCR stimulation. CD28 signaling is not sufficient to co-stimulate responses of high buoyant density CD4+ T cells to anti-TCR-conjugated agarose beads; there is an additional requirement that can be supplied by exogenous IL-6 but not by IL-1. In contrast, in responses to anti-TCR mAb that is passively bound to the bottom of culture wells, CD28 stimulation is sufficient to co-stimulate proliferation, resulting in a very high level of IL-2 production; there is no additional requirement for exogenous IL-6 or IL-1. Possible explanations for the differential requirement for IL-6 in the two systems are discussed. Our results are consistent with the notion that CD28 signaling plays a central role in co-stimulating T cell responses. However, the results also suggest that, depending on the nature of the TCR stimulus, T cell activation may also require additional co-stimulatory signals provided by cytokines.
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PMID:Role of IL-6, IL-1, and CD28 signaling in responses of mouse CD4+ T cells to immobilized anti-TCR monoclonal antibody. 790 3

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

The role of costimulation in the activation of TCR-gamma delta cells in normal mice and mice transgenic (tg) for a TCR-gamma delta receptor was investigated. Activation of TCR-gamma delta cells required two signals. One signal was mediated by TCR occupancy, whereas a second signal was provided by accessory cells. The importance of the CD28/B7 interaction in the delivery of the second signal was demonstrated in multiple ways. First, addition of a soluble fusion protein homolog of CD28, CTLA4Ig, significantly inhibited the activation of G8 tg splenic TCR-gamma delta lymphocytes and intestinal epithelial TCR-gamma delta lymphocytes by Ag-bearing lymphocytes during primary stimulation. Similarly, both proliferation and IFN-gamma production were inhibited by addition of CTLA4Ig to secondary antigenic stimulation of G8 tg TCR-gamma delta cells. Second, an Ag-bearing thymoma, EL-4, was only able to stimulate expanded G8 tg TCR-gamma delta cells when the thymoma expressed B7. This stimulation was blocked by both CTLA4Ig and anti-B7 antibody. Third, antibodies to CD28 were able to mimic the costimulatory affect of APC. TCR-gamma delta cells cultured with either Ag-bearing fixed stimulator cells or submitogenic concentrations of immobilized anti-pan TCR-gamma delta mAb proliferated only in the presence of anti-CD28 mAb. Finally, G8 tg cells produced IL-2 only in the presence of APC costimulation or anti-CD28 antibodies, and the addition of exogenous rIL-2 overcame the need for costimulation. Thus, autocrine IL-2 production is one of the major consequences of TCR-gamma delta cell costimulation. Together these data demonstrate that costimulation is necessary for the activation of TCR-gamma delta cells and can occur through CD28 interaction.
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PMID:CD28-mediated costimulation is necessary for the activation of T cell receptor-gamma delta+ T lymphocytes. 824 49

Superantigens interact with specific V beta elements of the T cell receptor and consequently activate all T cells bearing those elements. The ability of superantigens to stimulate T cells depends on the presence of APC that express MHC class II molecules on their surface. The question we are addressing is: do superantigens have to be seen in context of MHC class II molecules, or can they be recognized directly by T cell-receptor elements? We have previously shown that the APC requirement for the stimulation of T cells by the streptococcal superantigen, pep M5, can be bypassed by the addition of PMA and cytokines or by crosslinking CD28 molecules. Here we asked if the response of APC-depleted T cells to this superantigen is V beta-restricted and whether in the presence of PMA and cytokines the specificity of pep M5 to V beta elements is altered. We provide evidence that in the absence of APC, but in the presence of PMA and cytokines, the specificity of pep M5 to V beta elements is identical to that observed when APC are present, with V beta 2, V beta 4, and V beta 8 being significantly expanded. In addition, we ruled out the possibility that the response is due to a minor contamination with APC or to the expression of DR molecules on T cells because anti-HLA class II monoclonal antibodies did not block the reconstituted response, whereas they totally abrogated the response in the presence of APC. We conclude that pep M5 does not have to complex with MHC class II molecules in order to interact with specific V beta elements. In addition, we propose that the inhibitory effects of the anti-class II antibodies when APC are present may be due to preventing pep M5 from binding and activating APC, thereby blocking the production of costimulatory molecules necessary for T cell activation by this superantigen.
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PMID:Preservation of the specificity of superantigen to T cell receptor V beta elements in the absence of MHC class II molecules. 825 43

Small, resting human peripheral blood T cells are able to mediate anti-CD3 redirected lysis against murine P815 cells transfected with human B7, a ligand of CD28. We demonstrate that cytotoxicity is mediated by preexisting cytotoxic effectors within the small, resting "memory" T cell population and by the de novo generation of additional CTL within both the "memory" and "virgin" T subsets. This conclusion is based on analysis of the kinetics of the response and the effects of metabolic inhibitors on the generation of CTL function. Memory CD45RO+ T cells demonstrated cytotoxicity within 4 h of coculture with anti-CD3 mAb and B7+ P815 cells and cytolysis was only partially prevented by inhibitors of protein synthesis. By contrast, virgin CD45RO- T cells demonstrated anti-CD3-induced lysis against B7+ P815 targets only after 6 or 8 h of coculture and cytotoxicity was completely prevented by inhibiting protein synthesis. Induction of cytotoxicity was B7 dependent in that parental P815 cells and P815 cells transfected with CD72 and vascular cell adhesion molecule-1, ligands for T cell-associated membrane receptors CD5 and very late activation antigen-4, respectively, did not initiate cytotoxicity. Our studies also revealed cooperation between the CD28/B7 and lymphocyte function-associated Ag-1/intercellular adhesion molecule-1 pathways in the generation of CTL from small, resting T cells. However, after CTL generation, the CD28-B7 interaction was not required for cytotoxic effector cell function. These observations may have important physiologic implications because this would permit activated CTL to lyse targets in vivo that do not express B7, after the CTL were generated by APC that do express B7 or possibly other costimulatory molecules.
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PMID:Requirements for CD28-dependent T cell-mediated cytotoxicity. 838 16

The initial event triggering the activation of Th cells occurs when the TCR interacts with antigenic peptide in the context of the MHC II on APC. Various T cell accessory molecules including CD4, CD28, and LFA-1 participate and facilitate the activation event. Although some evidence for the interaction of MHC II and CD4 is available, the site of MHC class II (alpha-chain, beta-chain, or both chains) for CD4 interaction has not yet been clearly defined. Results from different laboratories had indicated the involvement of alpha 1, beta 1, and beta 2 domains of MHC class II molecules in CD4 interaction. Recently, a conserved site of DR beta 2 domain has been identified that involves CD4 interaction that is analogous to MHC class I binding site for CD8 molecule. In this report, direct binding of affinity-purified HLA-DR2 dimer and its isolated alpha- and beta-chains to CD4 was studied using a CD4-transfected HeLa cell line. Preferential binding of the beta-chain and intact MHC II dimer to the CD4-transfected cells was observed and found to be specifically inhibited by anti-CD4 mAb. In contrast, the isolated alpha-chain of HLA DR2 did not show significant binding to CD4-transfected cells. Complexes of radiolabeled DR2 dimer or beta-chain alone with an immunodominant epitope from myelin basic protein (83-102) did not show any further increase in binding of these molecules. Binding of the beta-chain to CD4+ cells was markedly inhibited by a DR beta 1 peptide (35-46) and was partially inhibited by a DR beta 2 peptide (134-148) of MHC class II molecule. These results suggest the involvement of at least two conserved regions of the beta polypeptide chain of MHC class II in CD4 interaction. Because in our experiments transfected cells lack TCR molecules and the binding of DR2 to the CD4-transfected cells was unaffected by added antigenic peptide, it is possible that the interaction of MHC class II to CD4 is independent of TCR occupancy.
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PMID:Purified beta-chain of MHC class II binds to CD4 molecules on transfected HeLa cells. 843 82

Dominant second signals for T cell activation can be generated through interactions between CD28 and CTLA-4 on T cells with their co-stimulatory ligands B7-1 and B7-2 on APC. Nevertheless, some B7-negative cell lines appear capable of providing second signals to T cells, illustrating that B7-independent co-stimulatory pathways may exist. One such cell line, the peptide-transporter defective T lymphoma RMA-S, was investigated in the present study, to determine the origin of the co-stimulatory effects it provides. RMA-S can support clonal expansion of purified CD4 or CD8 T cells from unprimed mice activated with concanavalin A (ConA) or immobilized anti-CD3. Nevertheless, RMA-S does not express B7-1 or B7-2, nor does it express other known co-stimulatory molecules, i.e. CD40, gp39, CD70 and HSA. Also, co-stimulation provided by RMA-S could not be blocked by antibodies or fusion proteins specific for these co-stimulatory molecules, excluding their participation. However, RMA-S' co-stimulatory activity is dependent on adhesive interactions. RMA-S is incapable of IL-2 production in the presence of ConA or anti-CD3, but T cells co-stimulated by RMA-S produce IL-2 and IFN-gamma upon anti-CD3- or ConA-induced activation. Furthermore, co-stimulation of antigen-specific T cell proliferation of both class I- and class II-restricted T cell clones can be provided by RMA-S, and RMA-S can preclude induction of anergy by 1-ethyl-3-(3-dimethyl amino propyl)carboiimide-fixed APC in a class II-restricted T cell clone. The results suggest that potent co-stimulatory pathways can be induced by cellular interactions between a T lymphoma, RMA-S and T cells, not involving gp39, CD40, CD70, HSA, B7-1 (CD80) or B7-2 (CD86). Characterization of the molecules involved is in progress.
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PMID:A T cell lymphoma can provide potent co-stimulatory effects to T cells that are not mediated by B7-1, B7-2, CD40, HSA or CD70. 858 81

In this study, we examined the molecular signals that control apoptosis in cloned CD4+ helper T cells. Resting T cells were highly resistant to spontaneous death in the absence of exogenous stress, and they expressed low levels of bcl-x protein and no detectable bcl-2. Upon exposure to gamma radiation, resting cells rapidly underwent apoptotic death. Incubation with IL-2 prevented this cell death and led to a large increase in bcl-2 protein expression and only a modest up-regulation in bcl-x. The combination of anti-CD3 and anti-CD28 mAbs was also effective in protecting the cells against radiation-induced apoptosis; however, this protection was associated predominantly with bcl-x up-regulation, and only a small induction of bcl-2 protein was observed. Finally, cyclosporin A blocked both IL-2 secretion and bcl-2 induction in response to CD3 plus CD28 stimulation, suggesting a role for endogenous lymphokine production in the induction of bcl-2. These data support a model in which memory T cells remain resistant to apoptosis because intermittent contact with Ag-bearing APC and IL-2R occupancy result in the expression of the life-proteins bcl-2 and bcl-x.
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PMID:Differential regulation of bcl-2 and bcl-x by CD3, CD28, and the IL-2 receptor in cloned CD4+ helper T cells. A model for the long-term survival of memory cells. 859 25

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