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)

Processing of intracellular proteins yields 8-11 residue peptides that are displayed on the APC surface as peptide/MHC class I complexes. The remarkably precise excision of antigenic peptides from their precursor polypeptides raises the question of whether specific flanking residues influence presentation efficiency. Here we addressed this question by analyzing the generation of OVA/Kb or influenza nucleoprotein/Db complexes in APC expressing precursors with varying N- or C-terminal flanking residues. We find that T cell responses were not significantly affected by varying the N-terminal flanking residue in the precursors. In contrast, presentation of peptide/MHC complexes was inhibited with the addition of a single C-terminal flanking residue. The most dramatic inhibition was observed with isoleucine, leucine, cysteine, and proline as the C-terminal flanking residues. These residue-specific variations in presentation activity could not be accounted for by differences in the stimulatory activity of corresponding synthetic peptides but were proportional to the relative amounts of naturally processed peptides recovered in the cell extracts. These findings suggest differences in the susceptibility of N- vs C-terminal flanking residues to proteolytic cleavage during Ag processing. The strong influence of specific C-terminal flanking residue(s) could be an important factor affecting the choice of peptides presented to T cells on the APC surface.
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PMID:Presentation of endogenous peptide/MHC class I complexes is profoundly influenced by specific C-terminal flanking residues. 759 93

This study extends the finding that intrathymic (IT) inoculation of uv-B irradiated donor spleen cells (SC) or soluble alloantigens (Ag) induces peripheral tolerance to organ allografts in the rat to the murine cardiac allograft model. In our initial experiment, we showed that IT inoculation of uv-B irradiated SC combined with transient immunosuppression of the recipient with either sublethal TBI or ALS on Day -7 led to donor-specific, long-term cardiac allograft survival (> 300 days) in the completely mismatched A/J-to-C57BL/6 mice combination. To test our hypothesis that peripheral tolerance induced by IT injection of donor Ag is dependent on presentation of the foreign MHC molecule by thymic APC to T cell precursors, we examined the effect of IT injection of donor APC-free-soluble Ag inoculum obtained from 3 MKCl extracts of purified MHC class I resting T cells on cardiac allograft survival in the A/J-to-C3H mice combination. The results showed that IT injection of the optimal dose of 500 micrograms soluble Ag combined with 0.5 ml ALS on Day -7 led to donor-specific permanent graft survival (> 200 days). This finding could not be reproduced by intravenous administration of soluble Ag, thus confirming the privileged position of the thymus in tolerance induction. To further define the role of host APC in allorecognition, we studied the presentation of soluble Ag by responder APC in MLR. The results showed that primed T cells obtained from A/J skin graft-sensitized C3H T cells specifically developed alloreactivity to A/J-soluble Ag in MLR.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Donor-specific unresponsiveness to murine cardiac allografts induced by intrathymic-soluble alloantigens is dependent on alternate pathway of antigen presentation. 763 Jan 43

Lethal graft-vs-host disease (GVHD) develops after transfer of CTL-depleted spleen and bone marrow cells from C57BL/6 (B6) mice to irradiated MHC class II disparate (B6xbm12)F1 recipients. Onset of lethal GVHD is significantly delayed in (bm1xbm12)F1 recipients of the same donor inoculum despite the additional MHC class I disparity (H-2Kbm1). To investigate the basis of this protective effect, hybridomas were generated from T cells activated in vivo during GVHD in both strain combinations. T cells from B6-->(B6xbm12)F1 mice generated a significantly higher frequency of B6.C-H-2bm12 (bm12)-specific T hybridomas (110/178, 62%) than T cells from B6-->(bm1xbm12)F1 mice (102/218, 47%). Some bm12-specific T hydridomas exhibited lesser responses to (bm1xbm12)F1 than to (B6xbm12)F1 APC. Moreover, bm1 peptides spanning a 14-amino acid region that includes the three amino acids that differ from H-2Kb were found to inhibit responses of some bm12-specific T hybridomas and to decrease significantly responses of splenic B6 CD4+ T cells to bm12 APC. Notably, the frequency of bm12-reactive hybridomas susceptible to inhibition by bm1 peptides generated from B6-->(B6xbm12)F1 mice was significantly greater than that generated from B6-->(bm1xbm12)F1 mice. Additional analysis using L cell transfectants indicated that hybridomas responding to the bm12 mutation at position 70 alone were rarely inhibited by bm1 peptides. The data indicate that expression of bm1-derived peptides can influence the frequency and specificity of alloreactive CD4+ T cells stimulated in vivo and thus may alter the course of GVHD.
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PMID:Protection from T helper cell-mediated graft-versus-host disease by the presence of an MHC class I alloantigen is associated with perturbation of MHC class II-restricted responses by class I-derived peptides. 763 34

Ramified microglia in the adult central nervous system (CNS) are the principal glial element up-regulating MHC class I and II expression in response to inflammatory events or neuronal damage. A proportion of these cells also express MHC class II constitutively in the normal CNS. The role of microglia as APCs for CD4+ T cells extravasating into the CNS remains undefined. In this study, using irradiation bone marrow chimeras in CD45-congenic rats, the phenotype CD45lowCD11b/c+ is shown to identify microglial cells specifically within the CNS. Highly purified populations of microglia and nonmicroglial but CNS-associated macrophages (CD45highCD11b/c+) have been obtained directly from the adult CNS, by using flow cytometric sorting. Morphologically, freshly isolated microglia vs other CNS macrophages are quite distinct. Of the two populations recovered from the normal CNS, it is the minority CD45highCD11b/c+ transitional macrophage population, and not microglia, that is the effective APC for experimental autoimmune encephalomyelitis-inducing CD4+ myelin basic protein (MBP)-reactive T cells. CD45highCD11b/c+ CNS macrophages also stimulate MBP-reactive T cells without addition of MBP to culture, suggesting presentation of endogenous Ag. This is the first study in which microglia vs other CNS macrophages have been analyzed for APC ability directly from the CNS, with substantial cross-contamination between the two populations eliminated. The heterogeneity of these populations in terms of APC function is clearly demonstrated. Evidence is still lacking that adult CNS microglia have the capacity to interact with and stimulate CD4+ T cells to proliferate or secrete IL-2.
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PMID:Normal adult ramified microglia separated from other central nervous system macrophages by flow cytometric sorting. Phenotypic differences defined and direct ex vivo antigen presentation to myelin basic protein-reactive CD4+ T cells compared. 772 89

Cellular proteins undergo proteolysis to yield peptide/MHC class I complexes for display on the APC surface. During this process it is not clear whether MHC molecules bind to and stabilize independently generated peptides, or whether they are involved in the peptide cleavage events. In this study, we analyzed the role of MHC molecules in Ag processing by characterizing the naturally processed peptide analogues of OVA (OVA257-264, SL8) in APC. DNA constructs encoding SL8 precursors were transfected into cells that varied in their MHC expression. By HPLC fractionation of cell extracts and with sensitive T cell assays for both the processed SL8 and its minimal Met-SL8 (MSL8) precursor, we determined that expression of Kb MHC molecule was essential for detecting processed peptides in living cells. Curiously, although the translated MSL8 nonapeptide precursor itself could bind Kb as well as the SL8 octapeptide, and MSL8 was available to MHC, only the SL8 peptide was found in Kb cell extracts. The presence of naturally processed SL8, but not MSL8 peptide in Kb-expressing cells suggests that the precise identity of endogenously processed peptides is also strongly influenced by the MHC molecules.
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PMID:The role of MHC class I molecules in the generation of endogenous peptide/MHC complexes. 781 70

Although the importance of CD4+ T cells for the induction of an effective CD8+ cytolytic T cell response is well documented, the mechanism by which MHC class II-negative tumor cells recruit CD4+ T help is not well understood. We have previously shown that IL-2 or IFN-gamma gene-modified CMS-5 tumor cells do not grow in syngeneic mice; however, mice which rejected the cytokine-secreting tumor cells develop a protective immune response against a challenge with parental tumor cells. Here we show that rejection of IL-2-secreting CMS-5 cells is not mediated by T cells. However, establishment of a protective immune response against CMS-5 tumor cells requires the presence of both CD4+ and CD8+ T cell subsets during the period of immunization with IL-2-secreting CMS-5 cells as well as during the effector phase. Extensive histologic analysis has failed to detect the presence of T cells at the site of immunization with either IL-2- or IFN-gamma-secreting CMS-5 cells. The main infiltrate at the site of inoculation with IL-2-secreting CMS-5 cells consisted of NK cells that appeared to play a role in their rejection. The predominant infiltrate at the site of inoculation with IFN-gamma-secreting CMS-5 cells consisted of macrophages. These observations argue against a direct role for the intact tumor cell in presenting either T helper or CTL epitopes to the immune system, and support the view that specialized APC are responsible for the in vivo priming of a T cell response against MHC class I-restricted Ag.
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PMID:The role of IL-2 secreted from genetically modified tumor cells in the establishment of antitumor immunity. 790 36

We isolated CD4+ and CD8+ T cell clones from pancreatic islets of non-obese diabetic (NOD) mice and studied their interactions with pancreatic islets, in culture. The three CD4+ T cell clones proliferated when cultured with islet cells from NOD, BALB/c, or C57BL/6 (B6) mice. For proliferation to the allogeneic islets, however, APC from NOD mice were required in the culture. Two of the clones also produced IFN-gamma upon culture with NOD islet cells. The Ag from islet cells responsible for T cell stimulation were not released into the supernatant but were cell associated. Paraformaldehyde treatment of islet cells, in fact, preserved their antigenicity. The fixed islet cells could present Ag to CD4+ T cell clones, provided live, syngeneic APC were added to the culture. We conclude from these experiments that islet cells donate Ag to the APC for presentation and that the function of APC is to process the Ag. The two CD8+ T cell clones proliferated and released IFN-gamma upon reaction with islet cells from either NOD or BALB/c but not B6 mice. The CD8+ T cell clones also reacted with the insulinoma NIT-1 cell line, derived from NOD mice. Fixation of NIT-1 cells did not impair recognition when live APC were present in the culture. In this case, however, the APC could be allogeneic. We conclude that CD8+ T cells directly recognized a MHC class I-restricted Ag on target cells, but needed the costimulatory effect of APC. We also found that CD8+ T cells killed islet cells. Two of the CD4+ T cell clones produced diabetes when transferred into male, irradiated NOD mice. For optimal transfer of disease, the CD4+ T cell clones had to be co-injected with CD8+ T cells from NOD diabetic mice. The two CD8+ T cell clones did not transfer disease.
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PMID:Presentation of beta-cell antigens to CD4+ and CD8+ T cells of non-obese diabetic mice. 810 46

Immune privilege in the anterior chamber of the eye results in part from a selective deficit in delayed hypersensitivity that is elicited by antigenic materials placed in this unique tissue site. This distinctive systemic immune response to intraocular Ag (termed anterior chamber-associated immune deviation, ACAID) is fashioned by indigenous, intraocular bone marrow-derived cells that capture Ag within the anterior chamber and carry an Ag-specific ACAID-inducing signal via the blood directly to the spleen. An identical form of immune deviation can be evoked by the i.v. injection of peritoneal exudate cells (PEC) pulsed in vitro with soluble Ag in the presence of transforming growth factor-beta (TGF-beta). To determine whether eye-derived cells present Ag directly to responding splenic T cells or merely serve as vehicles to deliver Ag to the spleen, we have conducted MHC restriction experiments with PEC donors and recipients selected to differ at loci dictating MHC and/or minor histocompatibility Ag. When PEC were pulsed in vitro with soluble Ag (BSA) in the presence of culture fluid containing TGF-beta and injected into recipients with which they shared either class I or class II MHC molecules, BSA-specific ACAID was induced. By contrast, PEC pulsed with BSA and TGF-beta-containing culture fluid failed to induce ACAID when the cells were injected into recipients who were completely histoincompatible or were identical with the injected cells only at non-MHC loci. Using MHC class I-deficient transgenic mice, it was determined that intraocular injection of BSA failed to induce ACAID, and that class I-deficient PEC were incapable of inducing either BSA-specific ACAID or splenic regulatory T cells that suppress BSA-specific delayed hypersensitivity. We conclude that cells that carry an ACAID-inducing signal to the spleen are: 1) restricted in their ability to induce ACAID by MHC-encoded molecules, 2) these cells are the proximate APC ACAID, and 3) class I MHC molecules play a central role in presenting exogenous protein Ag to splenic T cells in ACAID.
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PMID:Evidence that peritoneal exudate cells cultured with eye-derived fluids are the proximate antigen-presenting cells in immune deviation of the ocular type. 822 16

In general, it has proven difficult to induce CTL responses using simple proteins or peptides without resorting to specialized adjuvants. In this study we show that particulate polymeric Ag in the form of hybrid Ty virus-like particles carrying the V3 region of HIV-1 gp120/160 envelope protein (V3:Ty-VLP) induce V3-specific CTL in BALB/c mice in the absence of adjuvant or lipid vehicle. In vitro restimulation of splenocytes with V3 peptide was necessary in order to generate effector CTL. Th cell activation was not required for this in vitro restimulation phase. The CTL induced by the V3:Ty-VLP were CD8+ve, H-2d-restricted, and HIV-1 isolate-specific (IIIB or MN). Co-administration of IIIB V3:Ty-VLP and MN V3:Ty-VLP primed both IIIB and MN V3-specific CTL. However, only IIIB V3-specific CTL were primed by hybrid Ty-VLP carrying IIIB, MN, and RF V3 loop sequences on the same particle indicating that there is intra- but not intermolecular competition between CTL epitopes. In direct comparisons, V3:Ty-VLP were substantially more potent than rgp120. Rgp160 and a 40mer IIIB V3 peptide both failed to prime V3-specific CTL. These data suggest that the particulate nature of hybrid Ty-VLP facilitates uptake into APC with subsequent access to the MHC class I processing pathway and that they may be useful vaccine vehicles for inducing cytolytic immunity against HIV-1 and other intracellular pathogens.
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PMID:Induction of HIV-specific cytotoxic T lymphocytes in vivo with hybrid HIV-1 V3:Ty-virus-like particles. 833 92

T lymphocytes are activated upon binding of their Ag receptors to a complex of Ag-derived peptides and MHC class I or class II molecules expressed on the surface of APC. It is now well established that APC degrade exogenous Ag in acidic endosomal compartments, and that Ag fragments bind to class II molecules moving through these compartments on their way to the surface of the APC. Although peptides derived from some endogenous Ag can also bind to class II molecules and subsequently be recognized by class II-restricted T cells, the intracellular trafficking pathways that enable endogenous proteins to be processed for association with class II molecules remain controversial. We have analyzed the mechanism by which the envelope (env) protein of the HIV-1 is processed in infected cells for recognition by class II-restricted T cells. A large number of env-specific class II-restricted human CTL clones were shown to lyse B-lymphoblastoid cell lines expressing the env. A novel dilutional assay proved that A novel dilutional assay proved that recognition of endogenous env protein was not a consequence of release and re-uptake of the env protein and subsequent processing by the standard class II-restricted pathway. Processing of endogenous env protein required that the protein be co-translationally translocated into the endoplasmic reticulum (ER) and then exit the ER, since the class II-restricted CTL did not recognize env protein localized to the cytosol or retained in the ER of target cells. Under these conditions, however, class I-restricted recognition was readily demonstrated. Finally, class II-restricted recognition was strikingly dependent upon the steady state level of surface env protein, since extracellular reagents that removed intact env protein from the surface of target cells inhibited recognition. This inhibition operated at the Ag-processing level rather than at the level of subsequent Ag recognition. These results provide the first direct evidence that endogenously synthesized membrane proteins enter the class II-restricted Ag-processing pathway after expression on the cell surface in an intact form.
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PMID:HIV-1 envelope protein is expressed on the surface of infected cells before its processing and presentation to class II-restricted T lymphocytes. 837 62

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