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)

Experiments were conducted in an effort to determine the ability of B and T lymphocytes to serve as APC for the activation of HSV-primed splenic T cells to become class I-restricted, HSV-specific CTL. The results showed that both freshly isolated splenic B cells as well as LPS and dextran sulfate (L/D)-activated B cells were effective at stimulating the generation of CTL during a 5-day in vitro culture. There was no requirement for the addition of exogenous IL-2 to the culture and, since murine B cells do not appear to express either membrane or secreted IL-1, this lymphokine appears to either not be required for the activation of virus-specific CTL or to be provided by the T cells themselves. When normal B cells were separated into fractions enriched for resting vs activated cells and then tested for their ability to stimulate the generation of HSV-specific CTL, it was found that while the activated B cells were quite effective at stimulating the generation of CTL, resting B cells were ineffective at carrying out this function. In contrast to normal B cells, normal T cells were unable to act as APC. However, Con A-activated T lymphoblasts were equivalent to L/D B cells in their ability to mediate the generation of CTL activity. L/D B cells that had been pulsed with HSV and then incubated at 37 degrees C for greater than 1 h could be fixed with paraformaldehyde and were still able to function as APC. The finding that L/D B cells, that had been fixed at 1 h or less after exposure to HSV, were unable to function as APC suggested that either active Ag "processing" steps may be required for the presentation of Ag in the context of class I molecules or that there is a requirement for the synthesis of viral protein Ag before presentation.
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PMID:Studies on the capacity of B cells as well as T cells to serve as accessory cells for the activation of herpes simplex virus-specific cytolytic T cells. 283 Dec 77

C57BL/6 (B6, H-2b) mice are CTL responders to both Sendai virus and Moloney leukemia virus. In the former response the H-2Kb class I MHC molecule is used as CTL restriction element, in the latter response the H-2Db molecule. B6 dendritic cells (DC) are superior in the presentation of Sendai virus Ag to CTL in comparison with B6 normal spleen cells. Con A blasts have even less capacity to present viral Ag than NSC, and LPS blasts show an intermediate capacity to present viral Ag. H-2Kb mutant bm1 mice do not generate a CTL response to Sendai virus, but respond to Moloney leukemia virus, as demonstrated by undetectable CTL precursors to Sendai virus and a normal CTL precursor frequency to Moloney virus. Compared to B6 mice, other H-2Kb mutant mice show decreased Sendai virus-specific CTL precursor frequencies in a hierarchy reflecting the response in bulk culture. The Sendai virus-specific CTL response defect of bm1 mice was not restored by highly potent Sendai virus-infected DC as APC for in vivo priming and/or in vitro restimulation. In mirror image to H-2Kb mutant bm1 mice, H-2Db mutant bm14 mice do not generate a CTL response to Moloney virus, but respond normally to Sendai virus. This specific CTL response defect was restored by syngeneic Moloney virus-infected DC for in vitro restimulation. This response was Kb restricted indicating that the Dbm14 molecule remained largely defective and that a dormant Kb repertoire was aroused after optimal Ag presentation by DC. In conclusion, DC very effectively present viral Ag to CTL. However, their capacity to restore MHC class I determined specific CTL response defects probably requires at least some ability of a particular MHC class I/virus combination to associate and thus form an immunogenic complex.
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PMID:Failure or success in the restoration of virus-specific cytotoxic T lymphocyte response defects by dendritic cells. 283 54

Models for T cell:B cell collaboration suggest that activated B cells process and present Ag to Th cells which subsequently induce B cell proliferation and differentiation. In contrast to activated B cells, resting B cells have generally been shown to be less efficient APC. If this model of T:B collaboration is physiologically correct, then resting B cells must undergo a phenotypic change that permits effective interaction with T cells. In this report, the requirement for rapid signaling through surface Ig on resting B cells for the induction of T:B interaction was investigated with an in vitro clustering assay. Resting splenic B cells were unable to form specific conjugates with T cell clones, unless the B cells were first treated with neuraminidase to remove sialic acid. In contrast, LPS-activated B cells were able to form conjugates without prior treatment. The ability of antibody against LFA-1 or L3T4 to inhibit cluster formation depended on the state of B cell activation in that anti-LFA-1 and anti-L3T4 mAb inhibited cluster formation by neuraminidase-treated resting B cells, but not by LPS-activated B cells. In addition, Ag-specific B cells which were isolated by their capacity to bind specific Ag were able to form clusters without any additional treatment. Moreover, treatment of resting splenic B cells with anti-mu-antibody induced clustering potential in B cells in as little as 10 min, suggesting that signaling through surface Ig was sufficient to induce this phenotypic change in B cells. Furthermore, activation of protein kinase C and Ca2+ mobilization were shown to be involved in that PMA and ionomycin treatment were also able to induce clustering potential in resting B cells. The rapid induction of clustering potential in resting B cells after signaling through surface Ig may represent a fundamental change in B cell physiology which occurs after recognition of specific Ag and may be required for effective cognate recognition between resting hapten-specific B cells and carrier-specific T cells. The potential role of desialylation for the induction of T:B interaction is discussed.
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PMID:The requirement for surface Ig signaling as a prerequisite for T cell:B cell interactions. A possible role for desialylation. 312 36

The production of antibody to a thymus-dependent Ag requires cooperation between the B cell and an Ag-specific Th cell. MHC restriction of this interaction implies that the Th cell recognizes Ag on the B cell surface in the context of MHC molecules and that the Ag-specific B cell gets help by acting as an APC for the Th cell. However, a number of studies have suggested that normal resting B cells are ineffective as APC, implying that the B cell must leave the resting state before it can interact specifically with a Th cell. Other studies, including our own with rabbit globulin-specific mouse T cell lines and hybridomas, show that certain T cell lines can be efficiently stimulated by normal resting B cells. One possible explanation for the above contradiction is that our B cells have become activated before presentation. Here we show that presentation by size-selected small B cells is not the result of nonspecific activation signals generated by the T cells or components of the medium. Also, although LPS activation does increase the efficiency of presentation by small B cells, use of large cells in place of small cells or preincubation of resting B cells with mitogenic doses of anti-Ig does not. Another possibility that we considered was that small B cells are unable to process Ag and that we had selected T cell lines that were capable of recognizing native Ag on the B cell surface. In the majority of cases, experiments with B cell lines and macrophages have shown that Ag presentation requires Ag processing, a sequence of events that includes internalization of Ag into an acid compartment, denaturation or digestion of Ag into fragments, and its return to the cell surface in the context of class II MHC molecules. The experiments reported here show that our T cell lines require an Ag processing step and that small resting B cells, like other APC, process Ag before presenting it to T cells. Specifically, we show that an incubation of 2 to 4 h is required after the Ag pulse before Ag presentation becomes resistant to irradiation. Shortly after the pulse, the Ag enters a pronase-resistant compartment. Although efficient Ag presentation requires initial binding to membrane Ig, Ag is no longer associated with membrane Ig at the time of presentation and is not presented in its intact form, because removal of membrane Ig by goat anti-Ig blocks presentation before but not after the Ag pulse.
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PMID:Characterization of antigen processing and presentation by resting B lymphocytes. 325 75

In the previous paper in this series, we described a form of self-reactivity among T cells called the "syngeneic T-T lymphocyte reaction" (STTLR). The phenomenon involves responder T cells that are stimulated to proliferate by irradiated antigen or self-reactive cloned T cell lines. The proliferative STTLR occurs in cultures rigorously depleted of conventional APC and is inhibitable by anti-Ia antibodies of the appropriate specificity. We also showed that both L3T4+ Lyt2- and L3T4- Lyt2+ T cell subsets participate in the STTLR-induced by the IEk-specific Lbd T cell line. In this paper, we report our studies on the effector phase of STTLRs, in particular, the cytotoxic responses induced by Lbd cells. We demonstrate that uncloned and cloned lines (called Dbl) of anti-Lbd cytotoxic cells are L3T4- Lyt2+ effector cells that kill Lbd, antigen-reactive T cells, and syngeneic B cells stimulated with LPS. They also kill syngeneic splenic cells stimulated with Con A for 72 h or less; longer culture periods in the presence of Con A yield Dbl-resistant T cells. Resting T cells are also resistant to Dbl cells. Using LPS-induced splenic B cells from H-2 congenic mice, we map the anti-self specificity of uncloned and cloned anti-Lbd cells to the Kk + IAk regions of the MHC. Seemingly concordant results were obtained using L transformants expressing IAk molecules on their surface. However, control studies with fibroblast lines and UV-induced fibrosarcoma cells unexpectedly revealed a high susceptibility to lysis by Dbl cells among certain Ia- cell lines. These results suggested that the antigen recognized by Dbl cells is not IAk itself but either an MHC-encoded or MHC-regulated gene product expressed by activated T and B cells and certain tumor cells. The target antigen is important in immunoregulation because Dbl cells suppress both the proliferation of Lbd cells to syngeneic cells and primary T cell-dependent anti-SRC PFC responses. From an immunoregulatory viewpoint, the existence of Lbd-Dbl cells offers several appealing features. Since Lbd cells cannot activate resting B cells or replace antigen-specific helper cells, they cannot initiate immune responses nonspecifically. In the presence of the appropriate antigen-specific helper T cells, Lbd and other self-reactive cells can amplify an immune response and thus facilitate its exponential growth. Since the self-reactive cells activate the Dbl cytotoxic circuit described above, they also provide the stimulus required to terminate immune responses quickly.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The syngeneic T-T lymphocyte reaction (STTLR). II. Induction of primary T anti-T cell cytotoxic responses in vitro in T cell cultures stimulated with syngeneic self-reactive T cells. 350 19

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

Generation of a human T cell anti-murine xenogeneic response has previously been shown to be dependent on presentation of murine Ag by human APC. We have undertaken a series of experiments to better delineate the cellular defects that prevent effective production of IL-2 by human T cells upon direct exposure to murine stimulator populations. It was found that although resting human T cells cannot respond effectively to resting murine APC, they can respond to activated murine stimulator populations. Such APC activation could be mediated by murine granulocyte-macrophage-CSF or LPS that were associated with increased expression of B7-2 on the xenogeneic stimulating cell populations. Blocking studies with Ab provided further evidence that costimulation through CD28 played a critical role in the stimulation of human T cells by activated murine-stimulator cells in the production of IL-2. These results demonstrate the usefulness of this xenogeneic system in understanding human T cell-APC interactions and defining minimally sufficient T cell activation requirements. They further delineate the cellular level of deficient activation in the xenogeneic stimulation of human T cells by murine cell populations, and identify the potential importance of CD28/CTLA4 and its ligands in xenogeneic responses. These observations and concepts have implications for clinical efforts in xenografting.
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PMID:The human anti-murine xenogeneic cytotoxic response. II. Activated murine antigen-presenting cells directly stimulate human T helper cells. 770 17

Incubation of unprimed splenocytes directly with synthetic peptides induces CD8+ primary CTL in vitro. The ability of peptide-pretreated LPS blasts or H-2Db-expressing Drosophila melanogaster cells to induce peptide-reactive primary CTL was analysed using synthetic peptides corresponding to distinct and overlapping amino acids in SV40 T antigen Db-restricted T-cell epitopes I, II-III, and V. Peptide-pretreated, but not untreated, LPS blasts induced strong peptide-reactive CTL in splenocytes of naive C57 BL/6 mice. The reactivity of these CTL was indistinguishable from that of CTL induced by direct stimulation of spleen cells with peptides. In contrast, effector cells induced by untreated or peptide-pretreated drosophila cells expressed equivalent cytolysis both against untreated and peptide-pretreated syngeneic target cells. They also strongly lysed the allogeneic (H-2d) P815 target cells. The cytolytic activity was expressed by CD8+ T lymphocytes. However, the lack of specificity and restriction was probably due to stimulation of LAK cells as well. The CTL-inducing potential of the drosophila cells was stable at 46 degrees C. Peptide-activated splenocytes cultured for 1 month in medium supplemented with spent medium from drosophila growth culture were 75% B cells and 25% CD4+ T cells. Taken together, these results indicated that LPS blasts are efficient APC for induction of primary CTL and that drosophila cell-derived molecule(s) are capable of inducing broad-reactive effector cells and may also assume the function of leukocyte growth factor(s).
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PMID:Lysis of allogeneic and syngeneic target cells by primary cytotoxic T lymphocytes induced in vitro by Drosophila melanogaster cells. 800 33

Cells of the macrophage lineage are required to cope with bacterial infection and to serve as APC for T lymphocytes. Among the regulatory factors limiting the macrophage response to infection and the expansion of Ag-specific T cells, IL-10 has received recent attention. On monocytes/macrophages, IL-10 has been shown to inhibit the intracellular killing of bacteria, the secretion of cytokines, and the expression of MHC molecules. In the present study we have examined the effect of IL-10 on different APC obtained from the central nervous system. Both, astrocytes and microglial cells are in a resting state and require activation signals to express MHC class II and cytokine genes. Whereas IL-10 profoundly inhibits the IFN-gamma-induced expression of MHC class II Ag on microglial cells, it had no such effects on astrocytes. Nevertheless, IL-10 suppressed the MHC class II- and Ag-dependent proliferative response of T cells in the presence of both types of APC. As shown by the use of anti-IL-10 Abs, endogenously produced IL-10 influenced the function of microglia but not of astrocytes to serve as APC. IL-10 significantly inhibited the LPS-induced production of granulocyte-macrophage-CSF, macrophage-CSF, and IL-6 by both astrocytes and microglial cells. In contrast, the secretion of these cytokines by the two glial cell population was not altered by IL-10 when IL-1 beta, TNF-alpha, or viruses were used as stimuli.
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PMID:Antigen presentation in the central nervous system. The inhibitory effect of IL-10 on MHC class II expression and production of cytokines depends on the inducing signals and the type of cell analyzed. 814 79

Exogenous Ag in the extracellular fluids do not gain access to the class I Ag-presenting pathway in most cells. However, there is an APC resident in spleen that can process and present exogenous Ag in association with class I molecules. We characterize the phenotype of this cell. This APC is of low buoyant density, is adherent to Sepharose and glass, and expresses both class II molecules and FcR. This phenotype identifies this APC as a macrophage. Resident, peptone- and thioglycolate-induced peritoneal macrophages also display this Ag-presenting activity. Analysis with CTL clones suggest that this Ag-presenting pathway may be active in only a subset of macrophages. A similar Ag-presenting activity is also present in dendritic cell-enriched populations from spleen although we cannot rule out the possible involvement of contaminating macrophages. In contrast, B and T cells that are resident in spleen and LPS blasts are unable to present exogenous Ag in association with class I molecules. The presentation of exogenous OVA with class I molecules is not inhibited by the inhibitors of thiol proteases, leupeptin, and antipain. The presence of gelonin, a ribosomal inactivating protein, in the extracellular fluids inhibits the ability of these APC to present exogenous OVA. Under identical conditions, gelonin does not inhibit Con A-stimulated T cell proliferation, or LPS-stimulated B cell proliferation and Ag presentation. These results are discussed in relation to the potential pathways through which an Ag in the extracellular fluids is presented with MHC class I molecules.
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PMID:Characterization of antigen-presenting cells that present exogenous antigens in association with class I MHC molecules. 841 76

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