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)

Cholera toxin (CT) is a strong systemic and mucosal adjuvant that greatly enhances IgG and IgA immune responses. We investigated whether CT potentiates Ag presentation by macrophages as a possible mechanism underlying its adjuvant function. This was tested by preculturing APC in CT and analyzing the effect of CT treatment on the capacity to trigger 1) an allogeneic proliferative response of normal mesenteric lymph node T cells (H-2b) to the macrophage cell line P388D1 (H-2d) or 2) an Ag-specific proliferative response of D10.G4.1 clonal T cells in co-culture with normal macrophages and Ag. Pretreatment of APC, normal peritoneal macrophages or the P388D1 cells, with CT strongly enhanced Ag- and allogen-specific T cell proliferation. Also P388D1 APC treated with CT and then formalin-fixed demonstrated enhanced ability to stimulate T cell proliferation as compared to cells not exposed to CT, suggesting that the effect of CT on APC might be to enhance expression of a cell-associated factor. Flow microfluorimetry analysis of P388D1 cells cultured in CT-containing medium failed to detect an increase in class II MHC-Ag expression as compared to that found on cells not cultured in CT. In contrast, both soluble and cell-associated IL-1 formation was increased several-fold by CT, but with different CT dose requirements. A total of 10 to 100 times more CT were required for elevating the soluble IL-1 as compared to the cell associated IL-1, which was increased by as little as 1 ng/ml of CT. The soluble and cell-associated IL-1 activity induced by CT was abrogated by a polyclonal antiserum to IL-1-alpha. Similarly, the potentiating effect of CT on the ability of P388D1 APC to trigger alloreactive T cell proliferation was also blocked completely by the addition of the anti-IL-1-alpha antibody to the test system. This is the first study to demonstrate that CT potentiates Ag presentation. The mechanism for this effect probably involves induction of IL-1 production and in particular of a cell-associated form of IL-1 (IL-1-alpha). Potentiation of APC function might be important for the adjuvant action of CT on the immune response in vivo.
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PMID:Cholera toxin stimulates IL-1 production and enhances antigen presentation by macrophages in vitro. 190 90

Fixation of APC with 1-ethyl-3-(3-dimethylamino-propyl)carbodiimide (ECDI) eliminates their ability to stimulate proliferation of alloreactive T cells or the D10 T cell clone, although a partial response, IL-4 production, was measured. However, if APC were activated before fixation, they could be ECDI-fixed and retain the ability to induce T cell proliferation. IL-1, IL-4 or LPS were capable of activating APC in this way, whereas IFN-gamma was not. This activation step occurred in 6 h, required protein synthesis, and was distinct from increases in Ia or IL-1. This suggests resting APC lack structures that are essential for inducing T cell proliferation.
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PMID:A role for cytokines in antigen presentation: IL-1 and IL-4 induce accessory functions of antigen-presenting cells. 210 7

Activation of Th lymphocytes requires that Ag be presented on the surface of accessory cells displaying Ia Ag. A number of studies have concluded that the T cell also requires IL-1 from accessory cells. However, we recently reported that one murine T cell clone (D10.G4.1) produced its own IL-1-like activity after encountering APC (9). In this report, we demonstrate that 1) IL-1 production is a common property of murine T cell clones, 2) T cell IL-1 activity is blocked by anti-IL-1-alpha antiserum, 3) IL-1-alpha mRNA can be directly visualized in individual cloned T cells using in situ hybridization techniques, and 4) IL-1 appears to serve an autocrine role in the activation of T cell clones inasmuch as anti-IL-1-alpha antiserum blocks cell proliferation when the T cell is the only IL-1 source.
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PMID:IL-1 is an autocrine growth factor for T cell clones. 297 78

IL-10 is a product of activated keratinocytes and is released during the induction phase of contact sensitivity. As IL-10 effects have been described as being mediated by APC, we investigated effects of IL-10 on epidermal Langerhans cells (LC), the resident APC in the epidermis. Initial studies failed to demonstrate effects of IL-10 on MHC class II Ag expression by LC or anti-CD3 mAb- or alloantigen-induced LC-dependent T cell proliferation. However, production of IFN-gamma and IL-2, (but not IL-6) was markedly reduced in these assays. When the soluble-protein Ag specific T cell clones AE7 (Th1) and D10.G4 (Th2) were substituted for unprimed T cells, differential effects of IL-10 on T-cell proliferation were observed. Whereas IL-10-pretreated and untreated LC supported Th2 cell proliferation equally well, IL-10-pretreated LC were essentially unable to induce Th1 cell proliferation in response to native protein or peptide Ag. The inhibitory influence of IL-10 on Th1 cells was observed when fresh or 1 day cultured LC were used; 2- or 3-day cultured LC were affected to a much lesser extent by IL-10 pretreatment. Further, coculture experiments using IL-10-pretreated or untreated LC of a different haplotype suggest that IL-10 negatively regulates a costimulatory signal required for induction of Th1 cell proliferation. To assess whether T cells incubated with Ag and IL-10-pretreated LC were responsive to further stimulation, T cells were rescued after 1 day of coculture with IL-10-pretreated LC and restimulated, either immediately or after 1 to 5 days of rest, with untreated LC in the presence of Ag. T cells incubated with IL-10-pretreated LC were found to be anergic, whereas T cells incubated with untreated LC proliferated normally after further stimulation. However, anergic T cells responded vigorously to IL-2. These data indicate that although IL-10-pretreated LC are effective APC for Th2 cells, they fail to induce Th1 cell proliferation and rather induce clonal anergy in these cells.
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PMID:Inhibition of Langerhans cell antigen-presenting function by IL-10. A role for IL-10 in induction of tolerance. 810 65

The possibility of inducing antigen-presenting capacity in cells normally lacking such capacity, currently represents a major goal in vaccine research. To address this issue we attempted to generate 'artificial' APC able to stimulate CD4+ T cell responses when tumor cells were infected with a single, recombinant, vaccinia virus (rVV) containing the two genes encoding murine MHC class II I-Ak and a third gene encoding the murine B7-1 (mB7-1) costimulatory molecule. To minimize the cytopathic effect and to improve safety, in view of possible in vivo applications, we made this rVV replication incompetent by Psoralen and long wave UV treatment. Tumor cells infected with rVV encoding I-Ak alone, pulsed with hen egg white lysozyme peptide (HEL46-61), induced IL-2 secretion by an antigen-specific T hybridoma. Tumor cells infected with the rVV encoding mB7-1 provided costimulation for activating resting CD4+ T cells in the presence of ConA. Tumor cells infected with the rVV encoding I-Ak and mB7-1, and pulsed with chicken ovotransferrin peptide (conalbumin133-145), induced a significantly higher response in a specific Th2 cell clone (D10.G4.1) as compared to cells infected with rVV encoding I-Ak molecules only. Thus, this replication incompetent rVV represents a safe, multiple gene, vector system able to confer in one single infection step effective APC capacity to non-professional APCs.
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PMID:Induction of antigen-presenting capacity in tumor cells upon infection with non-replicating recombinant vaccinia virus encoding murine MHC class II and costimulatory molecules. 900 58

Glycolipid-enriched membrane (GEM) domains, or lipid rafts, function in signaling in immune cells, but their properties during Ag presentation are less clear. To address this question, GEM domains were studied using fluorescence cell imaging of mouse CH27 B cells presenting Ag to D10 T cells. Our experiments showed that APCs were enriched with GEM domains in the immune synapse, and this occurred in an actin-dependent manner. This enrichment was specific to GEM domains, because a marker for non-GEM regions of the membrane was excluded from the immune synapse. Furthermore, fluorescence photobleaching experiments showed that protein in the immune synapse was dynamic and rapidly exchanged with that in other compartments of CH27 cells. To identify the signals for targeting GEM domains to the immune synapse in APCs, capping of the domains was measured in cells after cross-linking surface molecules. This showed that co-cross-linking CD48 with MHC class II was required for efficient capping and intracellular signaling. Capping of GEM domains by co-cross-linking CD48 and MHC class II occurred with co-capping of filamentous actin, and both domain capping and T cell-CH27 cell conjugation were inhibited by pretreating CH27 cells with latrunculin B. Furthermore, disruption of the actin cytoskeleton of the CH27 cells also inhibited formation of a mature immune synapse in those T cells that did conjugate to APCs. Thus, Ag presentation and efficient T cell stimulation occur by an actin-dependent targeting of GEM domains in the APC to the site of T cell engagement.
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PMID:Visualization of antigen presentation by actin-mediated targeting of glycolipid-enriched membrane domains to the immune synapse of B cell APCs. 1476 67

The serine/threonine kinases of the Akt/protein kinase B family are regulated in part by recruitment to the plasma membrane, which is accomplished by the binding of an N-terminal PH domain to the phosphatidylinositol 3-kinase products phosphoinositol 3,4,5-trisphosphate and phosphoinositol 3,4-bisphosphate. We have examined Akt localization in a murine T cell clone (D10) before and after stimulation by APC/Ag, and we found that whereas the pleckstrin homology domain is required for plasma membrane recruitment of Akt upon T cell activation, the C terminus of the kinase restricts its cellular localization to the immunologic synapse formed at the site of T cell/APC contact. A recently described proline-rich motif in this region appears to be important for proper localization of full-length Akt. Moreover, a form of Akt in which this motif was mutated acts as a potent dominant negative construct to block T cell activation. Therefore, multiple mechanisms are involved in the proper targeting of Akt during the early events of T cell activation.
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PMID:A proline-rich motif in the C terminus of Akt contributes to its localization in the immunological synapse. 1510 Feb 85

Cryptic and pseudo-cryptic species are common amongst marine phytoplankton, and may cause misleading inferences of ecological and physiological data of plankton community studies. Deciphering the diversity and distribution of species of the benthic dinoflagellate Ostreopsis is one example, as there are many morphologically indistinct clades that differ greatly genetically and toxicologically from one another. In this study, a new species, Ostreopsis rhodesae from the southern Great Barrier Reef was described. While it initially appeared to be highly similar to several other Ostreopsis species, we found O. rhodesae can be distinguished based on the relative size of the second apical plate (2'), which is twice as long as the APC plate, and separates the third apical (3') from the third precingular (3'') plate. Phylogenetic trees based on the SSU, ITS/5.8S and D1-D2 and D8-D10 regions of the LSU rRNA were well supported, and showed a clear difference to other Ostreopsis clades. Compensatory base changes (CBCs) were identified in helices of the ITS2 between O. rhodesae and O. cf. ovata and O. cf. siamensis, which were also present in the same habitat. Fish gill cell lines were toxic to O. rhodesae, cell extracts but no palytoxin-like analogues were found in them. The findings highlight a case of pseudo-cryptic speciation, found in sympatry with closely related and morphologically similar species, but biologically and functionally distinct.
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PMID:Molecular and phylogenetic characterization of Ostreopsis (Dinophyceae) and the description of a new species, Ostreopsis rhodesae sp. nov., from a subtropical Australian lagoon. 2807 55