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)

The maturation of CD4+8- and CD4-8+ thymocytes from CD4+8+ thymocytes is dependent on the mandatory interaction of their alpha beta TCR with selecting ligands expressed on thymic epithelial cells (TE). This is referred to as positive selection. The deletion of CD4+8+ thymocytes that express autospecific TCR (negative selection) is mediated primarily by bone marrow-derived cells. Previous studies have shown that TE is relatively ineffective in mediating the deletion of CD4+8- thymocytes expressing autospecific TCR but TE can render them anergic, i.e., nonresponsive, to the self Ag. The mechanism by which anergy is induced in these cells is unknown. In this study, we used thymocytes expressing a transgenic TCR specific for the male Ag presented by H-2Db class I MHC molecules to examine how expression of the deleting ligand by TE affects thymocyte development and phenotype. The development of female TCR-transgenic thymocytes was examined in irradiated male hosts or in female hosts that had received male fetal thymic epithelial implants. It was observed that the development of transgenic-TCR+ thymocytes was affected in mice with male TE. CD4+8+ thymocytes with reduced CD8 expression and markedly enhanced transgenic TCR expression accumulated in mice with male TE. Development of CD4-8+ thymocytes was also affected in these mice in that fewer were present and they expressed an intermediate CD8 coreceptor level. These CD4-8+ thymocytes expressed a high level of the transgenic TCR, retained the ability to respond to anti-TCR antibodies, but were nonresponsive to male APC. However, the maturation of CD4+8- thymocytes, which are also derived from CD4+8+ precursor cells, was relatively unaffected. In an in vitro assay for assessing negative selection, male TE failed to delete CD4+8+ thymocytes expressing the transgenic TCR under conditions where they were efficiently deleted by male dendritic cells. Collectively these results support the conclusion that male TE was inefficient in mediating deletion. Furthermore, expression of the deleting ligand on thymic epithelium interferes with the maturation of functional male-specific T cells and results in the accumulation of CD4+8+ and CD4-8+ thymocytes expressing a lower level of the CD8 coreceptor but a high level of the transgenic TCR.
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PMID:Altered thymocyte development resulting from expressing a deleting ligand on selecting thymic epithelium. 157 26

Ag in the extracellular fluids can be internalized, processed, and presented in association with class I MHC molecules on specialized APC in normal spleen. We examine the fate of these APC after they present Ag to a CTL. When splenocytes present exogenous OVA to CTL, their ability to subsequently present native Ag in association with both class I and class II molecules is inhibited. CTL do not inhibit the ability of splenocytes to present processing independent peptides with class I or class II molecules. Inhibition of Ag presentation is only observed in the presence of the specific Ag recognized by the CTL. This inhibition is MHC-restricted. In the presence of specific Ag, CTL inhibit the ability of APC to present unrelated Ag. However, bystander APC are not affected by activated CTL. Taken together these results indicate that when APC present exogenous Ag to CTL, they are inhibited or killed. The CTL that mediates this activity has a conventional CD4-CD8+ phenotype and utilizes a TCR-alpha beta. The potential significance of these findings and their possible relationship to phenomena associated with Ts cells are discussed.
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PMID:Inhibition of class I and class II MHC-restricted antigen presentation by cytotoxic T lymphocytes specific for an exogenous antigen. 157 28

The generation of CTL against Qa-1 Ag in C57BL/6 (B6) (Qa-1b) and B6.Tlaa (Qa-1a) congenic strains requires in vivo priming with the Qa-1 alloantigen together with a helper Ag, such as H-Y. The primed precursors obtained from these female mice generate Qa-1-specific CTL activity upon culture in vitro. Although the presence of the H-Y helper Ag is not required for the in vitro sensitization, no response occurs in the absence of CD4 cells. Addition of unprimed B6.Tlaa CD4 cells from Qa-1 incompatible radiation bone marrow chimeras (B6.Tlaa----B6), that are presumably tolerant to Qa-1b, provide helper activity for Qa-1b-specific CTL. This indicates that although CD4 cells are obligatory for the Qa-1 response, they need not be specific for alloantigens on the APC to generate helper activity in in vitro cultures. Addition of unirradiated B6 CD8-depleted spleen cells to CD4-depleted B6.Tlaa anti-B6 cultures in the presence of either B6.Tlaa CD4 cells or rIL-2 prevents the generation of Qa-1 specific CTL. This inhibition is not due to an anti-idiotypic Ts cell since B6.Tlaa----B6 chimeric cells do not suppress an anti-Qa-1b response. Rather, this finding is consistent with that of a veto cell mechanism. To determine whether CD4 cells themselves exhibit veto activity, highly purified CD4 populations were tested for their ability to inhibit the generation of Qa-1-specific CTL. CD4 cells precultured for 2 to 3 days with Con A and rIL-2 specifically inhibit CTL activity whereas resting cells do not, similar to that noted for CD8 veto cells. The relative efficiency of activated CD4 cells is greater than that of resting NK cells but is less than that of activated CD8 or NK cells. Thus, CD4 cells not only provide helper activity for CTL precursors, but also act as veto cells to prevent the generation of CTL activity.
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PMID:Two roles for CD4 cells in the control of the generation of cytotoxic T lymphocytes. 167 Jun 5

The SJL strain of mice possess a unique developmental delay in the ability to exhibit delayed-type hypersensitivity (DTH) responses after immunization with a wide variety of Ag. Similar to other models of DTH, the adoptive transfer of syngeneic Ag-pulsed macrophages from DTH-responsive mice into these DTH-unresponsive mice results in the activation of Ag-specific, CD4+ DTH effector Th1 T cells. The absence of other defects in APC-dependent immune responses indicate that the macrophages is the sole APC required for the induction of DTH effector T cells in SJL mice. The defect occurs during the sensitization phase of the DTH response; however, it has not been determined whether a Th cell, which is required for the induction of CD4+ DTH effector T cells, was present in the DTH unresponsive SJL mice. In this study, we have determined that the Thy-1+ helper cell is induced upon Ag stimulation of nonresponder mice and present evidence for the existence of an accessory cell distinct from the macrophage that induces CD4+ DTH effector T cells. Our data indicate that CD4+ DTH effector T cells are induced in an Ag-specific and MHC-restricted manner by an adherent macrophage that expresses the Mac-1+, Mac-2-, Mac-3+, I-A+ phenotype. Adoptive transfer of as few as 100 of the Mac-1+, Mac-2-, or Mac-3+ subsets from DTH responsive donors to DTH unresponsive recipients is able to overcome the DTH deficit. The activation of CD4+ DTH effector T cells in the SJL mouse cells also requires a Thy-1+, Lyt-1+, CD3-, CD4-, CD8-, helper cell. In contrast to the Mac-1+, Mac-3+, I-A+ accessory cell, this helper cell requires an adherent, irradiation resistant, accessory cell that expresses the Mac-1+, Mac-2-, Mac-3-, I-A- surface phenotype for activation. Further, the interaction between this accessory cell and the Thy-1+ helper cell is neither Ag-specific nor MHC restricted. This is the first demonstration of an accessory cell requirement for the Thy-1+, Lyt-1+, B220-, CD4-, CD8-, CD3- DTH Th cell. These data indicate that the activation of the triple negative helper cells and subsequent activation of the CD4+ effector T cells are regulated by two distinct macrophage subpopulations.
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PMID:Distinct subsets of accessory cells activate Thy-1+ triple negative (CD3-, CD4-, CD8-) cells and Th-1 delayed-type hypersensitivity effector T cells. 167 82

We recently identified three distinct T helper pathways which contribute to interleukin-2 (IL-2) production by human peripheral blood lymphocytes following stimulation with HLA alloantigens. In two of these pathways, CD4+ T helper cells respond to alloantigen using either self antigen-presenting cells (sAPC)* or allogeneic antigen-presenting cells (aAPC). A third pathway involves CD8+ T helper cells using aAPC. Previous in vitro studies have shown that the T helper pathway dependent on CD4+ T helper cells and sAPC (CD4-sAPC) is the most susceptible to suppression by cyclosporine. In the present study, we measured alloantigen-stimulated IL-2 production by PBL from 42 kidney transplant recipients to characterize the strength of the three T helper-APC pathways. In 58% of patients, a loss of the CD4-sAPC pathway was identified and was correlated with cyclosporine treatment. However, several patients not receiving cyclosporine also exhibited a similar loss of T helper cell function, suggesting that cyclosporine is not the only factor involved. Of 27 patients exhibiting depressed CD4-sAPC function, none had evidence of ongoing/recent graft rejection. In contrast, of 11 patients with no defects in the three pathways of in vitro T helper cell function, 6 had evidence of chronic graft rejection. Of considerable interest are the data obtained from a separate group of 4 patients who had episodes of acute rejection during the study. In each case, at the time of the rejection episode, all exhibited an intact CD4-sAPC pathway. However, samples tested prior to the rejection episode or after successful treatment of the rejection episode showed a depressed CD4-sAPC pathway. These results suggest that depression of the CD4-sAPC pathway represents adequate immunosuppression for graft retention and that patients not exhibiting such suppression are at increased risk for both acute and chronic graft rejection. These data may have relevance for diagnosis and/or prediction of graft rejection and may provide an in vitro method of monitoring the functional degree of immunosuppression in transplant recipients.
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PMID:Correlation of in vitro CD4+ T helper cell function with clinical graft status in immunosuppressed kidney transplant recipients. 167 59

The thymus is the major site of T cell development and repertoire selection. During these processes, T cells segregate into two subsets that express either CD4 or CD8 accessory molecules, the phenotype of peripheral T cells. Analysis of CD4+8- thymocytes revealed that the majority of these cells express the heat-stable Ag (HSA) but not the nonclassical class I Ag, Qa-2. This HSA+, Qa-2- phenotype is similar to that of the less mature, CD4+8+ thymocytes. The remaining CD4+8- thymocytes possess the HSA-, Qa-2+ phenotype of peripheral T cells. To determine whether the Qa-2-, CD4+8- thymic subset is fully mature, we have analyzed the functional status of these CD4+8- subpopulations. The results indicate that only those thymocytes which express Qa-2 are fully responsive to anti-TCR stimulation in a manner analogous to peripheral T cells. The Qa-2- subset is nonresponsive to stimulation by anti-TCR antibodies that have been immobilized to plastic, even in the presence of lymphokines or syngeneic APC. This subset is, however, capable of proliferating to allogeneic cells or to anti-TCR on the surface of syngeneic APC, although not to the levels achieved by Qa-2+ thymocytes. Thus, the Qa-2- subset appears to require additional interactions which are not necessary for peripheral T cells or Qa-2+ thymocytes. Relevant to this issue, the Qa-2+ thymocyte subset does not appear until relatively late in development, and does not reach adult frequencies until several weeks after birth. These results would suggest that there is a progression from HSA+, Qa-2- to HSA-, Qa-2+ which parallels the maturation of functional responsiveness. These findings are important to understanding T cell selection since thymocytes with such a decreased responsiveness may have a differential capacity for tolerance induction. The results presented suggest that the bulk of CD4+8- thymocytes are not fully mature and that Qa-2 may serve as a marker for T cells with a more complete functional competence.
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PMID:The majority of CD4+8- thymocytes are functionally immature. 167 36

We have investigated the role of CD2 molecules in Ag-specific T cell activation by using a mouse model system in which the function of CD2 can be analyzed without the apparent influence of major accessory molecules, such as CD4 or LFA-1. Transfection of the CD2 gene into a CD2- T cell hybridoma confers the enhancement of IL-2 production upon Ag stimulation. Anti-CD2 mAb inhibits the Ag-specific response of the CD2-transfectant, not only to the level of CD2- cells but to the background. B cells, but not MHC class II-transfected L cells, serve as APC to induce the inhibition of Ag response. The complete abrogation of the response is observed only upon the stimulation through TCR with Ag in the presence of APC but not through either TCR-CD3 or other molecules such as Thy-1. Furthermore, the inhibition can also be observed when anti-CD2 mAb is immobilized on culture plates, suggesting that the inhibition of Ag response results from transducing the negative signal through the CD2 molecule. The experiments on cytoplasmic domain-deleted CD2-transfected T cells reveal that the cytoplasmic portion is responsible for the CD2-mediated abrogation of Ag responses. These results imply that CD2 has important roles in T cell responses not only as an activation and adhesion molecule but also as a regulatory molecule of Ag-specific responses through the TCR.
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PMID:Induction of negative signal through CD2 during antigen-specific T cell activation. 168 Sep 13

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

Experimentally induced and naturally occurring inflammatory diseases of the central nervous system (CNS) are often associated with a breakdown of the blood-brain barrier and edema within the CNS itself. CD4+ T cells are now clearly implicated in the pathogenesis of the induced CNS disease, experimental autoimmune encephalomyelitis, and previous in vivo experiments had indicated that these cells may be capable of directly damaging the CNS vasculature. To assess the capacity of CD4+ T cells to damage brain vascular endothelial cells (EC) in vitro, two lines with specificity for myelin basic protein and OVA were prepared and added to cultures of EC. We show here that both lines, when added in a resting state, severely disrupt the EC monolayers in an Ag-specific manner. The interaction is dependent on the recognition of Ag in the context of MHC class II and is blocked in the presence of mAb specific for CD4. Addition of T cell lines preactivated on irradiated thymocyte APC caused a high level of Ag nonspecific damage to the EC, which was not blocked by the addition of anti-CD4 mAb. Supernatants derived from these latter cells did not alone damage the EC monolayers despite the presence of TNF activity suggesting that T cell-EC contact may be required for these cell lines to mediate their effector function. Both resting and preactivated lines adhered strongly to the EC in the absence of Ag. The capacity of CD4+ T cells to strongly adhere to, and disrupt the integrity of, brain vascular EC may be important in the early stages of CNS disease mediated by this cell type.
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PMID:Antigen-specific damage to brain vascular endothelial cells mediated by encephalitogenic and nonencephalitogenic CD4+ T cell lines in vitro. 169 55

Murine T lymphocytes recognize nominal Ag presented by class I or class II MHC molecules. Most CD8+ T cells recognize Ag presented in the context of class I molecules, whereas most CD4+ cells recognize Ag associated with class II molecules. However, it has been shown that a proportion of T cells recognizing class I alloantigens express CD4 surface molecules. Furthermore, CD4+ T cells are sufficient for the rejection of H-2Kbm10 and H-2Kbm11 class I disparate skin grafts. It has been suggested that the CD4 component of an anti-class I response can be ascribed to T cells recognizing class I determinants in the context of class II MHC products. To examine the specificity and effector functions of class I-specific HTL, CD4+ T cells were stimulated with APC that differed from them at a class I locus. Specifically, a MLC was prepared involving an allogeneic difference only at the Ld region. CD4+ clones were derived by limiting dilution of bulk MLC cells. Two clones have been studied in detail. The CD4+ clone 46.2 produced IL-2, IL-3, and IFN-gamma when stimulated with anti-CD3 mAb, whereas the CD4+ clone 93.1 secreted IL-4 in addition to IL-2, IL-3, and IFN-gamma. Cloned 46.2 cells recognized H-2Ld directly, whereas recognition of Ld by 93.1 apparently was restricted by class II MHC molecules. Furthermore, cytolysis by both clones 46.2 and 93.1 was inhibited by the anti-CD4 mAb GK1.5. These results demonstrate that CD4+ T cells can respond to a class I difference and that a proportion of CD4+ T cells can recognize class I MHC determinants directly as well as in the context of class II MHC molecules.
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PMID:Some cloned murine CD4+ T cells recognize H-2Ld class I MHC determinants directly. Other cloned CD4+ T cells recognize H-2Ld class I MHC determinants in the context of class II MHC molecules. 171 78

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