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)

In the introduction, we asked how MHC molecules on the surfaces of APC make contact with antigen-specific receptors on the surfaces of T cells. We have reviewed two models in which antigen-specific contacts occur with primary leukocyte populations in vitro. One system involves resting T cells; the other sensitized T lymphoblasts. At the onset of a primary immune response, dendritic cells seem critical for binding and activating both CD4+ and CD8+ subsets. Given the current evidence, we suggest that dendritic cells literally find the right T cell clone, and not vice versa, and that dendritic cells do so by first binding and surveying T cells by an antigen-independent mechanism. In the efferent limb of immunity, other types of APC including B cells and macrophages bind and stimulate freshly sensitized T lymphoblasts. Freshly isolated epidermal Langerhans cells do not cluster T cells by an antigen-independent mechanism but acquire this capacity during epidermal suspension culture. Under the control of GM-CSF, the Langerhans cell becomes a powerful accessory cell for the primary or sensitization limb of T-dependent immune responses like the MLR and primary antibody response. Isolated lymphoid dendritic cells have many features in common with interdigitating cells in lymphoid T areas, and may be related to some of the irregularly-shaped Ia+ cells in certain epithelia and interstitial regions. Contact with dendritic cells may be important in both central and peripheral pathways of T cell sensitization in situ.
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PMID:The binding of antigen presenting cells to T lymphocytes. 307 54

The functional significance of multiple cells--among lymphoid and nonlymphoid cells--capable of having Ia molecules on their membranes must be critically addressed. Ia is absolutely required before a cell can interact with helper T cells, but it is not clear whether the presence of this protein is all that is needed for antigen presentation. Indeed, at present, except for the macrophage, few cells have been studied for antigen presentation using a wide range of protein antigens, either soluble or particulate. On the basis of the studies discussed in the first section, it appears that the recruitment of most helper-T cell clones takes place by APC that can internalize and process the protein antigens, be they soluble or part of the structure of microorganisms. The fact that helper T cells are programmed to recognize antigen in the context of Ia, and therefore on an APC such as the macrophage, forces recognition of antigens that are altered or processed. Indeed, proteins in their native state may not remain membrane-bound for long periods; the T cells, therefore, have the opportunity to recognize the altered fragments. To this issue is added the requirement for the T-cell receptor to interact with Ia molecules. The available information, therefore, leads one to conclude that APC deficient in their capacity to internalize and process proteins will not be able to present them. The finding that small peptides from a previous catabolism of proteins can be presented without further handling implies that APC with limited processing capacity could be involved in presentation of such small peptides. The different Ia-positive APC of the lymphoid organs may interact to different extents with protein antigens and collaborate with each other to bring about an effective stimulation of the clones of helper T cells. The macrophage, being the most ubiquitous cell and the one capable of interacting with many proteins, is our candidate as the major APC involved in the recruitment and enlargement of clones T cells. The observations that macrophages can release proteins partially altered implies that there may be cooperativity among the various APC. Data for this have been obtained. Most likely B cells will be found to have a limited capacity to present all antigens because of their inherent difficulties in internalizing large particulate materials. In such instances, B cells may interact with the solubilized proteins released by the macrophages. The same may apply to the Langerhans/dendritic cells.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Antigen-presenting function of the macrophage. 624 49

It is now well established that CD4+ T cells can express cytotoxic activity. This type of cell-mediated cytotoxicity is associated with the Th1-, but not with the Th2-phenotype. While the activation of CD4+ CTL is MHC class II-restricted, the effector phase, i.e. the target cell killing is unrestricted and antigen non-specific. In analogy to CD8+ CTL, CD4-mediated target cell death is by DNA fragmentation. However, the molecular mechanism of killing differs from CD8-mediated lysis. Thus, CD4+ CTL preferentially lyse their targets via Fas-Fas ligand interaction, whereas the major cytotoxic effect of CD8+ CTL is by granule exocytosis, i.e. perforin and granzymes. Although CD8+ CTL can also express the FasL, their lytic activity through interaction with Fas is of less importance. Likewise, some CD4+ CTL may also kill by perforin/granzymes activity, but this pathway is of minor significance. The aims of CD8- or CD4-mediated lysis are also different. Thus, the major task of CD8+ CTL which recognize and kill their targets in the context of MHC class I molecules, is the lysis of virally infected cells and battling against tumor cells. CD4+ CTL, on the other hand, have an immunomodulatory role. Thus, they preferentially eliminate activated MHC class II-positive cells, i.e. APC, be they monocytes/macrophages, B cells or T cells. They may lyse these cells in order to prevent an overreaction of the ongoing immune response or in order to remove potentially hazardous cells upon completion of the immune response. The Fas-FasL pathway is particularly suitable for this task as myeloid or lymphoid cells express Fas only if activated, while FasL is preferentially expressed on activated CD4+ Th1 cells. Moreover, activated T cells eliminate themselves by the Fas-mediated pathway. Whether this happens by fratricide only, or also by suicide or both is open. Moreover, CD4+ CTL are particularly suitable for killing tumor cells as well, as they are efficient effectors in bystander lysis in contrast to CD8+ CTL. On the other hand, the non-specific killing via Fas-FasL interaction, which is an important reason for the bystander lysis, may have unwanted effects in that cells which should not be eliminated could be killed. Such reactions affecting various organs and cells, e.g. the liver, thyroid or islet cells of the pancreas could be an explanation for certain autoimmune diseases.
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PMID:Mechanism and biological significance of CD4-mediated cytotoxicity. 749 61

Since Pam 212 cells express low levels of class I major histocompatibility (MHC) antigens, we tested their ability to present alloantigens or minor histocompatibility (mH)/minor lymphocyte stimulatory (mls) antigens in disparate hosts. After subcutaneous injection, Pam 212 cells grew progressive tumors in normal BALB/c mice but were rejected rapidly by naive C3H mice (3 weeks) and slowly by DBA/2 mice (8 weeks). Pam 212 cells (high or low class I MHC expression) induced a strong primary MLR in DBA/2 T cells, but a weak BALB/c T-cell response. In contrast, splenic APC (BALB/c) did not induce an MLR, suggesting that Pam 212 cells represented mH antigens to naive DBA/2 T cells. This MLR was blocked by anti-TCR alpha/beta, anti-class II, and anti-CD4 monoclonal antibodies, but was independent of ICAM-1 and B7. Repeated immunization using IFN-gamma-treated Pam 212 cells induced anti-Pam 212 CTL in DBA/2 mice but not in BALB/c mice. DBA/2 T-cell responses did not appear to be mls (MMTV superantigen)-specific, because Pam 212 cells did not express MMTV mRNA detectable by RT-PCR. Pam 212 cells presented non-lymphoid-associated mH antigens that served as potent stimuli for tumor rejection in mH/mls-disparate hosts, which is similar to tumor rejection mediated by MHC alloantigens.
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PMID:Minor histocompatibility antigen-dependent rejection of Pam 212 epidermoid carcinoma by DBA/2 mice. 754 74

Activation of T lymphocytes can result in a functional immune response, anergy or apoptosis. Functional T cell activation requires the interaction of the TCR with Ag presented by MHC molecules on APC concurrent with appropriate interactions between cell surface accessory molecules. Interestingly, the level of CD28 expression is regulated during T cell development as well as during T cell activation and proliferation, suggesting that CD28 could play a role in determining the outcome of activation of TCR during T cell ontogeny. We identify, herein, a novel function of murine CD28 in the regulation of activation-induced apoptosis in thymocytes. In vivo, or combined in vivo and in vitro treatment with mAbs to CD28 prevents apoptosis of CD4+CD8+ thymocytes induced by Abs to the TCR complex. Prolonged administration of anti-CD28 Abs increased the number of both CD4+CD8- and CD4-CD8+ T cells in the thymus, while the number of CD4+CD8+ T cells is relatively unchanged. Furthermore, this treatment leads to a dramatic enlargement of peripheral lymphoid organs characterized primarily by the expansion of B cells. The number of CD4+CD8- T cells in the spleen of anti-CD28-treated mice is also moderately increased, while the number of CD4-CD8+ cells is relatively unchanged.
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PMID:CD28-mediated signaling in vivo prevents activation-induced apoptosis in the thymus and alters peripheral lymphocyte homeostasis. 754 34

The function of gamma delta T cells, particularly the minor population of circulating gamma delta T cells, remains unclear. To study these lymphoid gamma delta T cells, a transgenic SCID mouse containing the KN6 gamma delta TCR whose ligand is the TL gene product, T22b, was created. KN6-SCID mice contain a monoclonal population of naive KN6+ gamma delta T cells. Using these mice, we have studied the APC required for activation of KN6+ gamma delta T cells in vitro and in vivo. Analysis of an in vitro mixed lymphocyte response identified a hierarchy of potency for stimulation: dendritic cells = T cell blasts > B cell blasts > B cells > resting T cells. In contrast, in vivo, only alpha beta T cells fully activated KN6+ gamma delta T cells as measured by an increase in the number of splenic KN6+ cells, the development of blast morphology, and the development of proliferative anergy in the responding KN6+ cells. The strong stimulatory properties of C57BL/6J T cells appeared to depend on their having been activated by KN6-SCID alloantigens. T cells from (C57BL/6J x BALB/c)F1 mice, which are tolerant of KN6-SCID alloantigens, could not fully activate KN6+ cells. However, the F1 T cells could activate KN6+ cells if they were activated in vivo by the mitogen, staphylococcal enterotoxin B. A mixture of third party activated T cells plus T22b+ non-T cells only partially activated KN6+ cells, implying that activated T22b+ T cells are acting directly as stimulatory cells. Although the Ags recognized by gamma delta T cells are generally unknown, Ag presentation by activated alpha beta T cells may be an important method of activation.
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PMID:Antigen-presenting cells for naive transgenic gamma delta T cells. Potent activation by activated alpha beta T cells. 756 Oct 93

Dendritic cells (DC) are the principle APC involved in primary immune responses; their major function is to obtain Ag in tissues, migrate to lymphoid organs, and activate T cells. DC are also the first immune cells to arrive at sites of inflammation on mucous membranes, the major site of sexual transmission of HIV. We have demonstrated previously that three populations of cells that can develop a dendritic morphology are present in peripheral blood. Two of these populations can express CD83, a marker of DC, and appear to be at different stages of maturation: 1) a precursor population and 2) a mature immunostimulatory DC. Precursor-derived DC express high levels of CD86 (B7-2) and HLA-DR but no CD80 (B7-1), whereas mature DC have high levels of expression of all three markers. Mature DC in peripheral blood bind HIV to their surface and induce infection when added to autologous CD4+ T cells in the absence of added stimuli, such as mitogens. These mature DC, when isolated directly from peripheral blood, appear to be conjugated to T cells, and these conjugates are infected easily and productively with HIV. These findings suggest a role for DC in early HIV infection in which they bind virus and interact with T cells locally or after migrating to a lymphoid organ, thus establishing a productive infection. Furthermore, they likely play a role in the propagation of HIV infection by activating T cells in the presence of HIV, which leads to viral replication and immune cell destruction.
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PMID:Both a precursor and a mature population of dendritic cells can bind HIV. However, only the mature population that expresses CD80 can pass infection to unstimulated CD4+ T cells. 756 Nov 24

Primary CTL responses can be generated in vitro against defined peptides in association with class I MHC molecules. We show here that if cells obtained from a 5-day MLR are also included in the cultures, the response is greatly reduced if the added cells both carry CD8 and can bind the peptide. Our interpretation is that the added MLR cells are acting as deletional APC or veto cells. Peptide-specific CTL precursors recognize the peptide on the class I MHC of the CD8+ MLR cells and then receive a negative signal via CD8 on these cells. In support of this, when MLR cells carrying the Lyt-2.1 allele of CD8 were used to down-regulate the response of Ly-2.2+ responder cells, inclusion of anti-Ly-2.1 mAb in the cultures partially reversed the response reduction. Similar signaling may occur in vivo. When mice were injected i.v. with syngeneic lymphoid cells incubated with a peptide which they could bind, the response against that peptide was specifically reduced in a subsequent in vitro assay.
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PMID:Reduction of CTL antipeptide response mediated by CD8+ cells whose class I MHC can bind the peptide. 830 Nov 19

Egg Ag-stimulated lymphoid cell culture supernatants from schistosome-infected mice significantly inhibited Ag-specific, MHC-restricted proliferative responses of cloned schistosomal egg Ag-specific CD4+, Th-1-type lymphocytes. The inhibitory molecule in the supernatants was found to be the cytokine IL-10. Maximal IL-10 was produced by cells from mice carrying 8-wk schistosome infections, and none by cells from normal mice. IL-10 exerted its biologic activity on APC, and not directly on the cloned lymphocytes, resulting in the inhibition of Th-1 lymphocyte proliferation, whereas Th-2 responses were not affected. Most significantly, IL-10 also affected Th-1 clone activity in vivo, as measured by the inhibition of schistosomal egg Ag-specific local delayed-type hypersensitivity reactions. IL-10 produced in schistosome-infected individuals may play a role in the generation of APC, such as macrophages in schistosomal egg granulomas, unable to efficiently stimulate, but capable of inducing a state of anergy/unresponsiveness in Th-1 lymphocytes. We believe that this state of Th-1 cell anergy translates into the down-regulation of granulomatous hypersensitivity (immunomodulation) characteristically observed in the evolving schistosomal disease.
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PMID:Role of IL-10 on antigen-presenting cell function for schistosomal egg-specific monoclonal T helper cell responses in vitro and in vivo. 837 75

The work presented in this review suggests that in human and murine type I diabetes, defective MHC class I expression on APC is linked to autoimmunity. The defect in self-antigen presentation is present on prediabetic and diabetic APC, and this presumably delivers abnormal or lack of signals to T cells to allow self tolerance. Since most autoimmune diseases have strong genetic linkage to MHC class II region, our recent results additionally demonstrating low MHC class I expression on lymphoid cells in a diversity of autoimmune diseases (hypothyroidism, rheumatoid arthritis, lupus, etc.) suggest that this pathway of abnormal class I presentation of self epitopes may be important for tolerance to many tissue-specific antigens (40). Certainly, the unanswered genetic questions will address the role of the specific genes controlling self-antigen presentation through MHC class I followed by T-cell education to self.
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PMID:Mechanisms of autoimmunity in type I diabetes. 844 41


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