EC:3.4.21.69 - FACTA Search

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Query: EC:3.4.21.69 (APC)
16,337 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Alloantigen primed T cells (PTC) were recovered from MLR at day 6 and 12, then added to cultures of erythroid progenitors, erythroid burst-forming units, BFU-E. The PBMC source of BFU-E was prepared either to retain or deplete APC by treatment with appropriate mAb and C. BFU-E grown in cocultures were counted at day 14 and replicate cultures assayed for IFN-gamma production on days 1 to 7. Analysis of MLR cells indicated that large, rapidly cycling cells recovered from MLR at day 6 have significant NK activity, whereas CTL activity is minimal, and production of IFN-gamma requires reexposure to APC. The smaller, noncycling cells recovered from MLR at day 12 have comparable NK activity, also require reexposure to APC for IFN-gamma production, but in addition have significant CTL activity. The addition of day 12 MLR cells to BFU-E cultures results in MHC restricted inhibition of BFU-E growth, suggesting that the CTL activity and not the NK activity contained within this population of cells is responsible for BFU-E inhibition. Studies using enriched population of BFU-E indicated that appropriate APC are needed to trigger both IFN-gamma production and BFU-E inhibition by the PTC. By using various APC-BFU-E combinations it was determined that after reexposure of PTC to appropriate APC, the inhibition of BFU-E was still target-specific indicating a direct effect between the PTC and BFU-E.
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PMID:Inhibition of erythroid progenitor growth is mediated by cytotoxic lymphocytes and not by natural killer cells or IFN-gamma. 250 70

To elucidate the acquisition of self tolerance in the thymus, full-allogeneic thymic chimeras were constructed. Athymic C3H and BALB/c nude mice were reconstituted with the thymic lobes of BALB/c and B10.BR fetuses, respectively, that were organ cultured for 5 days in the presence of 2'-deoxyguanosine. T cells in these chimeras were tolerized to the host MHC in both MLR and CTL assays. In contrast, T cells in the chimeras exhibited split tolerance for the thymic MHC haplotype. CTL specific for class I MHC of the thymic haplotype were generated not only from the peripheral T cells of the chimeras but also from thymocytes re-populated in the engrafted thymic lobes. However, T cells in these chimeras responded poorly to the class II MHC of the thymic haplotype in a standard MLR assay. In a syngeneic MLR culture upon stimulation with enriched APC of the thymic haplotype, only 22 to 48% of the responses were mediated by CD4+ cells, and proliferations of CD4- cells were prominent. There were no haplotype-specific suppressor cells detected which would cause the unresponsiveness to the thymic class II MHC. These results indicated that the thymic lobes treated with 2'-deoxyguanosine were defective in the ability to induce the transplantation tolerance for the class I MHC expressed on the thymus, although the same thymic lobes were able to induce the transplantation tolerance for the thymic class II MHC.
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PMID:Split tolerance in nude mice transplanted with 2'-deoxyguanosine-treated allogeneic thymus lobes. 252 79

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

We demonstrated previously the presence of an Ia+ (OX-6+) antigen-presenting cell within the rat T cell fraction that is capable of presenting antigen to antigen-primed OX-6-T cells. This antigen-presenting cell (T-APC) reacted with the monoclonal antibodies W3/25 and W3/13, which is known to react mainly with rat T cells. Further characterization of the T-APC indicated that the cell also reacted with the monoclonal antibody OX-19, which is highly specific for rat T cells. Moreover, the antigen-presenting function of the T-APC was sensitive to treatment with mitomycin C or gamma-irradiation (2000 rad). Under similar conditions, antigen presentation by partially purified dendritic cells or macrophages was totally resistant to these treatments. The antigen-presenting activity of gamma-irradiated T-APC was not reconstituted by the addition of the lymphokines IL 1, IL 2, or Con A supernatants. Although unirradiated T-APC were able to stimulate an MLR response, this function was also sensitive to gamma-irradiation, whereas the MLR-stimulating ability of macrophages and dendritic cells was resistant to gamma-irradiation. These data indicate that Ia+ T cells from the rat are capable of presenting antigen to antigen-primed T lymphocytes and that, in contrast to antigen presentation by macrophages and dendritic cells, the function of T-APC is gamma-radiation sensitive.
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PMID:Antigen presentation in the rat. II. An Ia+ radiosensitive T cell can present antigen to primed Ia- T cells. 315 64

Although this chapter ought to summarize the role of MHC antigens in T cell activation, the immunobiological meaning of the polymorphism of Class II antigens, as well as that of Class I antigens, is still unresolved. The antigen-presenting ability of human APC is dominant over that of murine APC in the stimulation of antigen-specific xenogeneic T cells. In addition, xenoreactive murine T cells specific for human PBL failed to recognize the polymorphic determinant of Class II antigens of human MHC. On the basis of the data, Class II antigens may be seen to have some role as antigen-presenting molecules rather than as restricting molecules, at least, in the xenogeneic APC-T cell interaction or the xenogeneic MLR responses. These data together with the fact that the linkage disequilibrium found among the various groups of alleles encoding Class I and II antigens making up an MHC haplotypes suggest that the MHC may play a key role during evolution. These studies using xenogeneic cell interaction may shed some light on the immunobiological function of polymorphism of MHC antigens in the mechanisms of T cell activation, and the evolutional history of the polymorphism of the NHC in self or not-self recognition by T cells.
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PMID:Interspecies cross-reactivity of Class II antigen of MHC determined by syngeneic, allogeneic and xenogeneic B and T cells. 633 2

We have developed a panel of rat mAbs against dibutyryl cAMP-activated 5C2 cells. In this panel, one mAb, 1G10, recognized murine B7. Another mAb designated 2D10 did not bind to murine B7 but could recognize a surface molecule expressed only on dibutyryl cAMP-activated 5C2 mouse B lymphoma cells or on LPS-stimulated splenic B cells. This new molecule is referred to as early T cell costimulatory molecule-1 (ETC-1). From both activated 5C2 cells and splenic B cells, mAb 2D10 immunoprecipitated a 59- to 60-kDa protein, which was different from the 47- to 55-kDa murine B7 protein precipitated from the same cell populations. FACS analysis showed that, in contrast to B7, the expression of ETC-1 on 5C2 cells was induced by lower concentrations of dibutyryl cAMP and displayed a faster kinetics. LPS-stimulated splenic B cells expressed relatively low levels of B7 and much higher levels of ETC-1. Importantly, in an Ag presentation assay using activated 5C2 cells as APC, the secretion of IL-2 by C8A3 T hybrids was partially inhibited by mAb 2D10 alone and completely blocked by combination use of mAbs 2D10 and 1G10 in a dose-dependent and synergistic fashion. In a one-way primary MLR, mAb 2D10 alone at 0.1 to 1 microgram/ml inhibited T cell proliferation by 19 to 56%. However, an additive blocking effect (up to 76%) was observed when two mAbs were added in combination. Thus, our data have demonstrated that a novel T cell costimulatory molecule is present on activated murine B cells, which, in cooperation with B7, may play a critical role in optimal T cell activation.
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PMID:Monoclonal antibody 2D10 recognizes a novel T cell costimulatory molecule on activated murine B lymphocytes. 751 Jul 38

To investigate genetic features of esophageal cancer, we have examined 93 squamous cell carcinomas of the esophagus for loss of heterozygosity (LOH), using 41 restriction fragment length polymorphism (RFLP) markers representing all autosomal chromosomes. Allelic losses at frequencies of at least 30% were observed at loci on chromosomal arms 3p (35%), 3q (30%), 5q (36%), 9p (57%), 9q (60%), 10p (33%), 13q (43%), 17p (62%), 17q (46%), 18q (38%), 19q (32%), and 21q (37%). These results suggest that several putative tumor suppressor genes, in addition to the cyclin D and TP53 genes that are sometimes mutated in esophageal carcinomas, may be associated with development and/or progression of esophageal cancer. By a comparison of LOH on each chromosomal arm with clinicopathological parameters, we have found a significant correlation between LOH on 19q and regional lymph node metastases. Interestingly, the frequency of LOH on 17q was significantly higher in tumors in female patients (12 of 14 cases) than in those in male patients (20 of 56 cases) (P = 0.0009 by Fisher's exact test). Furthermore, we examined for mutations of the APC gene on chromosome arm 5q. Screening of nearly one third of the APC coding region, including the MCR (mutation cluster region), revealed no alterations. Therefore, although allelic loss at the APC locus is frequent in squamous cell carcinomas of the esophagus, it is likely that a gene on 5q other than APC is involved in esophageal tumorigenesis.
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PMID:Allelotype study of esophageal carcinoma. 752 40

Signals initiated through both the TCR complex and CD28 are required for optimal activation of T lymphocytes. Recently, it has been demonstrated that CD28 interacts with two different ligands, designated CD80 (B7/B7-1) and CD86 (B70/B7-2). We have produced stable transfectants that express CD80, CD86, or both ligands and have examined their ability to costimulate T cell proliferation, cytokine production, and the generation of CTL. When we used small, resting human peripheral blood T cells as responders, both CD80 and CD86 transfectants efficiently costimulated anti-CD3 mAb-induced proliferation and the secretion of IL-2 and IFN-gamma. Additionally, both CD80 and CD86 transfectants were able to generate functional CTL. The magnitude and kinetics of these responses were similar, which indicates that both ligands provide efficient costimulatory signals. Because many APCs coexpress both CD80 and CD86, we compared the ability of anti-CD80 and anti-CD86 mAbs to inhibit allogeneic MLR stimulated with B lymphoblastoid cell lines and showed that it is necessary to inhibit interactions with both ligands to optimally block CD28-dependent proliferation. Given the limited homology of CD80 and CD86, it was surprising that the binding of CD28-Ig fusion protein to CD80 and that to CD86 transfectants were essentially indistinguishable. Binding of CTLA-4-Ig fusion protein to both transfectants also was quite similar, but was of higher affinity than CD28-Ig binding. Results from these studies indicate that both CD80 and CD86 are potent and similar costimulators of T lymphocytes. Therefore, the role of CD80 and CD86 in an immune response may be determined primarily by their differential expression on APC.
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PMID:CD80 (B7) and CD86 (B70) provide similar costimulatory signals for T cell proliferation, cytokine production, and generation of CTL. 752 24

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

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

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