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Query: UMLS:C0033036 (APC)
 10,214 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In order to elucidate the role of HLA class II molecules in generation of self-nonself discrimination of human T cells, we have analyzed T cell functions in an HLA class II-negative severe combined immunodeficiency patient. Patient PBL expressed no HLA-DR, -DQ, and -DP antigens as judged by immunofluorescence using mAb, and failed to elicit MLR responses from unrelated controls. Patient PBL contained mature T cells (CD3+ TCR alpha beta+) of the CD4 and CD8 subset, showing an apparently normal TCR diversity, as judged by use of anti-V beta 5, -V beta 6, -V beta 8, -V beta 12, and -V alpha 2 mAb. Patient PBL proliferated in response to anti-TCR/CD3 mAb and PHA, but not against recall Ag, despite immunization, and mounted proliferative, but not cytotoxic, responses against allogeneic cells. To find out whether the MLR responses were a consequence of self-nonself discrimination, the patient HLA-DR and -DQ genotype was determined using sequence specific oligonucleotide probes, revealing DRB1*0401 DQB1*0301 alleles, and MLR were set up against a panel of HLA-DR4 DQw3 stimulators matched or mismatched for DRB1*0401 DQB1*0301. Results showed no MLR against DRB1*0401 DQB1*0301 stimulators, but significant responses against stimulators expressing DRB1*0408 and/or DQB1*0302 alleles. Moreover, the DRB1*0401 DQB1*0301 APC reconstituted proliferation of patient PBL against PPD; this response was completely blocked by an anti-IL-2R (p55) mAb and partially also by anti-HLA-DR and -DQ mAb, indicating recognition of these molecules as restriction element presenting Ag--i.e., as self--by patient T cells. In conclusion, the novel demonstration of self-nonself discrimination by T cells from an HLA class II-negative SCID patient suggests that it may not be absolutely dependent on regular HLA class II expression within the differentiation environment in humans.
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PMID:Allorecognition and T cell repertoire selection in severe combined immunodeficiency lacking HLA class II antigens. 153 39

We have found that the low immune response to streptococcal cell wall Ag (SCW) was inherited as a dominant trait and was linked to HLA, as deduced from family analysis. In the present report, HLA class II alleles of healthy donors were determined by serology and DNA typing to identify the HLA alleles controlling low or high immune responses to SCW. HLA-DR2-DQA1*0102-DQB1*0602(DQw6)-Dw2 haplotype or HLA-DR2-DQA1*0103-DQB1*0601(DQw6)-DW12 haplotype was increased in frequency in the low responders and the frequency of HLA-DR4-DRw53-DQA1*0301-DQB1*0401(DQw4)-Dw15 haplotype or HLA-DR9-DRw53-DQA1*0301-DQB1*0303(DQw3)-Dw23 haplotype was increased in the high responders to SCW. Homozygotes of either DQA1*0102 or DQA1*0103 exhibited a low responsiveness to SCW and those of DQA1*0301 were high responders. The heterozygotes of DQA1*0102 or 0103 and DQA1*0301 showed a low response to SCW, thereby confirming that the HLA-linked gene controls the low response to SCW, as a dominant trait. Using mouse L cell transfectants expressing a single class II molecule as the APC, we found that DQw6(DQA1*0103 DQB1*0601) from the low responder haplotype (DR2-DQA1*0103-DQB1*0601(DQw6)-Dw12) activated SCW-specific T cell lines whereas DQw4(DQA1*0301 DQB1*0401) from the high responder haplotype (DR4-DRw53-DQA1*0301-DQB1*0401(DQw4)-Dw15) did not activate T cell lines specific to SCW. However, DR4 and DR2 presented SCW to CD4+ T cells in both the high and low responders to SCW, hence the DR molecule even from the low responder haplotype functions as an restriction molecule in the low responders. Putative mechanisms linked to the association between the existence of DQ-restricted CD4+ T cells specific to SCW, and low responsiveness to SCW are discussed.
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PMID:HLA-DQ-restricted CD4+ T cells specific to streptococcal antigen present in low but not in high responders. 167 41

Tetanus toxin (TT)-specific T cell clones of donor origin were obtained from a patient with severe combined immunodeficiency (SCID) successfully reconstituted by transplantation of allogeneic fetal liver and thymus cells from two different donors performed 10 yr ago. A series of these clones recognized TT in the context of "allo" class II HLA determinants expressed by recipient APC. The restriction element of two T cell clones with the HLA phenotype of the first donor (HLA-DR1,8) and one T cell clone with the HLA phenotype of the second transplant (HLA-DR3,9) was HLA-DR4 of the recipient, whereas other T cell clones derived from the second transplant recognized TT in the context of HLA-DR5 of the recipient's APC. These latter T cell clones were not able to proliferate in response to TT when autologous APC were used. These data demonstrate that recipient and donor cells having different HLA phenotypes could cooperate across the allogeneic barrier and that MHC restriction of antigen (Ag) recognition is independent from the MHC genotype of the T cells but is influenced by the environment in which the T cells mature. We also isolated T cell clones that were able to recognize processed TT presented by all allogeneic EBV cell lines tested, indicating that the Ag specificity of these clones was not restricted by a particular class II MHC molecule. The Ag-specific proliferative response of one of these clones could be blocked by anti-class II MHC mAbs. These results demonstrate that in addition to Ag recognition in the context of specific class II MHC Ags, other types of Ag-specific responses may occur in this human chimera. It is not clear whether this "allo" plus Ag recognition is the result of education of transplanted fetal cells in the host thymus. Taking into consideration our previous findings indicating that alloreactive T cell clones specific for the recipient cells could be isolated in vitro from the PBL of the same patient, our data suggest that the mechanism for deletion of self-reactive clones and the generation of MHC-restricted responses are different.
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PMID:Antigen recognition by MHC-incompatible cells of a human mismatched chimera. 246 6

We have analyzed the ability of human gamma+/delta+ T cells to recognize a nominal antigen in association with MHC molecules. A TT-specific T cell line with approximately 40% gamma+/delta+ T cells was established from a hyperimmunized donor, D.F., by stimulation with antigen and autologous APC. Three DF-derived gamma+/delta+ clones were CD8+ as determined by immunofluorescence staining, and by Southern and Northern blotting with probes detecting delta chain rearrangement and delta and gamma chain transcripts, respectively. The gamma+/delta+ clones responded to stimulation with TT, but not TNP-BSA, and autologous APC by proliferation and IFN-gamma production. No proliferation or IFN-gamma production was detected when TT-specific T cell clones were stimulated with either TT or autologous APC only. The response to TT was enhanced by addition of exogenous IL-2. The use of allogeneic APC from 19 donors sharing one HLA-determinant with the autologous donor D.F., showed that the gamma+/delta+ T cells responded to TT with HLA-DR4-related restriction as measured by proliferation and IFN-gamma production. These results demonstrate that gamma/delta receptors can recognize non-MHC-encoded foreign antigen in a self-MHC-restricted fashion.
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PMID:Human TCR-gamma+/delta+, CD8+ T lymphocytes recognize tetanus toxoid in an MHC-restricted fashion. 246 70

To study MHC class II-dependent and -independent SAg2 activation and the relative importance of CD80/CD28 costimulation, staphylococcal enterotoxin A (SEA) was presented to T cells as a fusion protein containing the Fab fragment of an mAb directed against the CA215 glycoprotein. Chinese hamster ovary (CHO) cells transfected with HLA-DR4, CA215, and CD80, individually or in combinations, were used as presenting cells. A strong T cell proliferation was obtained when C215Fab-SEA fusion proteins were presented by CHO-DR/CD80 or CHO-CA215/CD80 double transfectants, whereas only low levels of proliferation were seen in the absence of CD80. Large amounts of IL-2, IFN-gamma, and TNF were produced in addition to an increase in IL-2 mRNA as a result of CD80 costimulation. Only approximately 50% of the SEA-reactive T cells responded by expression of IL-2 receptor chains and by blast formation when activated with SEA in the absence of MHC class II. Reverse transcription-PCR-assisted repertoire analysis of SEA-reactive TCR V beta families showed that the CA215-dependent activation involved an expansion of fewer TCR V beta families compared with MHC class II-dependent activation. One-half of the six analyzed TCR V beta families were expanded independently of class II. This indicates that MHC class II has only a partial influence on the TCR V beta repertoire imprinted by SAg. This finding redefines the role of MHC class II in SAg presentation. It is suggested that MHC class II molecules are selected as SAg-binding molecules mainly as a suitable targeting receptor for professional APC expressing costimulatory molecules such as CD80 and CD86.
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PMID:Regulation of superantigen-induced T cell activation in the absence and the presence of MHC class II. 881 90

T helper cells, which recognize allopeptides processed and presented by self APC, contribute to the generation of both cellular and humoral immune responses against allogeneic transplants. We have explored the hypothesis that the indirect T cell recognition pathway is initiated by soluble MHC antigens and that it can be suppressed by high doses of synthetic peptides corresponding to the dominant alloepitope. T cells from a DR11/7 responder were immunized in vitro with recombinant HLA-DR4 (rDR4). Experiments using partially overlapping synthetic peptides showed that the resulting T cell line (TCL) recognized a single dominant epitope mapping within residues 69-88 of the first domain of the DR4 molecule. In vitro immunization with synthetic allopeptides corresponding to other polymorphic regions, were unable to elicit T cell reactivity against rDR4, although at least one of these peptides (corresponding to residues 13-27) was immunogenic, behaving like a cryptic epitope. The rDR4-specific TCL expressed a limited TCR repertoire and provided help to autologous B cells for the production of specific antibodies. The T cell blastogenic response as well as the transcription and secretion of IL-4 (but not IL-2) was efficiently suppressed by high doses of the dominant allopeptide. These findings support the concept that selective immunointervention of indirect allorecognition can be achieved by use of high doses of antigen or TCR vaccination, as proposed for autoimmune diseases.
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PMID:Suppression of the indirect pathway of T cell reactivity by high doses of allopeptide. 882 75

Exogenous antigenic peptides captured and presented in the context of major histocompatibility (MHC) class II molecules on APC, have been employed as potent vaccine reagents capable of activating cellular immune responses. Binding and presentation of select peptide via surface class II molecules has been reported. Here, a role for endocytosis and early endosomes in the presentation of exogenous peptides via MHC class II molecules is described. T cell recognition of a 14 amino acid human serum albumin-derived peptide in the context of HLA-DR4 was observed only with metabolically active APC. The delayed kinetics and temperature dependence of functional peptide presentation via APC, were consistent with a requirement for peptide internalization to early endosomal compartments prior to T cell recognition. Ablating endocytosis by exposing cells to inhibitors of ATP production completely blocked the display of functional peptide:class II complexes on the surface of the APC. Presentation of the peptide was also found to be sensitive to primaquine, a drug that perturbs the recycling of transport vesicles containing endocytic receptors and mature class II complexes. Functional presentation of the endocytosed peptide was dependent upon these mature class II complexes, as inhibitor studies ruled out a requirement for newly synthesized class II molecules. N-terminal processing of the endocytosed peptide was observed upon trafficking through endosomal compartments and linked to the formation of functional peptide:class II complexes. These findings establish a novel mechanism for regulating class II-restricted peptide presentation via the endocytic pathway.
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PMID:Endocytic recycling is required for the presentation of an exogenous peptide via MHC class II molecules. 1120 44

Glycosylation of mammalian proteins is known to influence their intracellular trafficking, half life, and susceptibility to enzymatic degradation. Rare instances of natural T cell epitopes dependent upon glycosylation for recognition have been described. We report here on human CD4(+) T lymphocyte cultures and clones from two melanoma patients that recognize the melanoma-associated Ag tyrosinase in the context of HLA-DR4 and -DR8. These T cells recognize tyrosinase, normally a heavily glycosylated molecule, when expressed constitutively in melanoma cells or in COS-7 transfectants pulsed as lysates onto autologous APC. However, these T cells fail to recognize tyrosinase expressed in bacteria, nor do they react with overlapping peptides covering full-length tyrosinase, suggesting a critical role for glycosylation in the processing and / or composition of the stimulatory epitopes. The requirement for glycosylation was demonstrated by the failure of tyrosinase-specific CD4(+) T cells to recognize tyrosinase synthesized in the presence of glycosylation inhibitors, or deglycosylated enzymatically. Site-directed mutagenesis of each of seven potential N-glycosylation sites showed that four sites were required to generate forms of tyrosinase that could be recognized by individual T cell clones. These data indicate that certain carbohydrate moieties are required for processing the tyrosinase peptides recognized by CD4(+) T cells. Post-translational modifications of human tumor-associated proteins such as tyrosinase could be a critical factor for the development of antitumor immune responses.
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PMID:N-linked carbohydrates in tyrosinase are required for its recognition by human MHC class II-restricted CD4(+) T cells. 1153 67

Complex protein antigens contain multiple potential T cell recognition epitopes, which are generated through a processing pathway involving partial antigen degradation via proteases, binding to MHC molecules, and display on the APC surface, followed by recognition via the T cell receptor. We have investigated recognition of the GAD65 protein, one of the well-characterized autoantigens in type I diabetes, among individuals carrying the HLA-DR4 haplotypes characteristic of susceptibility to IDDM. Using sets of 20-mer peptides spanning the GAD65 molecule, multiple immunostimulatory epitopes were identified, with diverse class II DR molecules functioning as the restriction element. The majority of T cell responses were restricted by DRB1 molecules; however, DRB4 restricted responses were also observed. Antigen-specific T cell clones and lines were derived from peripheral blood samples of pre-diabetic and IDDM patients and T cell recognition and response were measured. Highly variable proliferative and cytokine release profiles were observed, even among T cells specific for a single GAD65 epitope.
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PMID:Complexity of human immune response profiles for CD4+ T cell epitopes from the diabetes autoantigen GAD65. 1190 49

Knowledge of the events governing Ag processing and epitope selection within APC is key to the development of novel immunotherapeutic strategies for infectious diseases, cancer, and autoimmunity. The influence of disulfides and Ag reduction on the hierarchy of epitope presentation via MHC class II molecules was investigated through studies of a self Ag, IgG kappa. HLA-DR4(+) B cells preferentially present an immunodominant IgG-derived epitope, kappaI, relative to a subdominant kappaII peptide. kappaI contains a cysteine masked within the native Ag via an intrachain disulfide, the latter of which is reduced during Ag processing. Mutagenesis of this cysteine as well as others within kappa minimally perturbed the abundance and overall conformation of IgG. Yet, disruptions in disulfide bonding within this Ag influenced the selective display of class II-restricted dominant and subdominant T cell epitopes. Presentation of the kappaI epitope from both native and variant IgG was dependent upon cellular expression of IFN-gamma-inducible lysosomal thiol reductase. These studies indicate that disulfide bonds regulate Ag processing both locally and at distant sites, thus influencing epitope selection within the class II pathway.
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PMID:Role of disulfide bonds in regulating antigen processing and epitope selection. 1219 13


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