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)

We have analyzed the ability of T cells to recognize peptides corresponding in sequence to an allogeneic HLA-DR molecule, in context of syngeneic MHC. PBMC from a responder with the HLA-DR beta 1*1101/DR beta 1*1201 genotype were stimulated in vitro with a mixture of four synthetic peptides derived from the first domain of the DR beta 1*0101 chain (amino acid residue 1-20, 21-42, 43-62, and 66-90). An alloreactive T cell line, TCL-LS, which proliferates only in response to peptide 21-42 presented by HLA-DR beta 1*1101, was obtained. The blastogenic response of the line was inhibited by anti-HLA-DR and CD4 antibodies but was not affected by antibodies to HLA-DQ, HLA-DP, HLA-ABC, and CD8. In the presence of irradiated, autologous APC, TCL-LS displayed specific proliferative responses to stimulating cells obtained from individuals carrying the DR beta 1*0101 allele. In the absence of autologous APC, TCL-LS recognized HLA-DR1 on allogeneic cells only when expressed together with HLA-DR beta 1*1101, the restrictive element. This indicates that TCL-LS recognizes processed HLA-DR1 molecule presented as nominal Ag. Study of TCR-V beta gene repertoire expressed by TCL-LS showed that only two V beta genes were used (V beta 13.2 and V beta 12). Two T cell clones (TCC) derived from this line, TCC-A5 and B4, exhibited a similar pattern of reactivity and expressed V beta 13.2. These results indicate that T cells recognizing peptides, which are derived from the breakdown of allogeneic MHC class II proteins and are presented by self-HLA-DR molecules, participate in allorecognition.
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PMID:T cell recognition of allopeptides in context of syngeneic MHC. 153 Jul 97

We have examined the role of 12 polymorphic residues of the beta-chain of the HLA-DR1 class II molecule in T cell recognition of an epitope of pertussis toxin. Murine L cell transfectants expressing wild-type or mutant DR1 molecules (containing single amino acid substitutions in DR(beta 1*0101)) were used as APC in proliferation assays involving nine DR1-restricted T cell clones specific for peptide 30-42 of pertussis toxin. Four different patterns of recognition of the mutants were found among the pertussis-specific clones. Residues in the third hypervariable region (HVR) of DR(beta 1*0101) are critically important for all the T cell clones; amino acid substitutions at positions 70 and 74 abrogated recognition by all of the T cell clones, and substitutions at positions 67 and 71 eliminated recognition by most of the clones. In contrast, most single amino acid substitutions in the first and second HVR, predicted to be located in the floor of the peptide binding groove, had little or no effect on the proliferative responses of these clones. However, the involvement of beta-chain first and second HVR residues was demonstrated by the inability of transfectants expressing wild-type DR(beta 1*0404) (DR4Dw14) or DR(beta 1*1402) (DR6Dw16) to present peptide to these clones. These beta-chains have completely different first and second HVR compared with DR(alpha,beta 1*0101) although the third HVR are identical. These results illustrate the functional importance of third HVR residues of DR(beta 1*0101) and allow definition of the molecular interactions of the DR1 molecule with the 30-42 peptide.
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PMID:Mutations in the third, but not the first or second, hypervariable regions of DR(beta 1*0101) eliminate DR1-restricted recognition of a pertussis toxin peptide. 157 65

In this study we examined the association of a promiscuous malaria T cell epitope, CS.T3, to different HLA-DR alleles. A large series of singly substituted or truncated variants of CS.T3 was prepared and tested for the ability to be recognised in association with, or to bind to, three distinct HLA-DR alleles (DR1, DRw11, and DRw14(w6)) and three natural variants of HLA-DRw11. We found that although association with the different DR molecules mapped to identical or closely overlapping regions of the peptide, distinct substitutions could drastically influence the capacity of the peptide to interact with one but not another of the three DR molecules tested. Based on analysis of the distribution of residues recognized by T cell clones restricted to the different DR alleles, we suggest that the peptide CS.T3 is not bound, at least for the three DR examined, as an alpha-helix. In addition we tested three subtypes of DRw11 as APC for the CS.T3 analogues and observed that the peptide is most likely bound in the same conformation to the three natural variants of the DRw11 molecule.
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PMID:Analysis of the permissive association of a malaria T cell epitope with DR molecules. 170 96

The characterization of human T cell antigenic sites on influenza A nucleoprotein (NP) is important for subunit vaccine development for either antibody boosting during infection or to stimulate T cell-mediated immunity. To identify such sites, 31 synthetic peptides that cover more than 95% of the amino acid sequence from NP of influenza A/NT/60/68 virus were tested for their ability to stimulate PBL from 42 adult donors. The most frequently recognized region was covered by a peptide corresponding to residues 206-229 of NP, with 20/42 (48%) of responders. In many individuals this was also one of the peptides that stimulated the strongest T cell responses. Other regions that were also frequently recognized were 341-362 by 13/42 (30%), 297-318 by 10/42 (23%), and 182-205 by 9/42 (21%) of individuals. These peptides covered highly conserved regions in NP of influenza A viruses, suggesting that they could be useful in boosting cross-reactive immunity against the known type A virus strains. In order to define the class II restriction molecules used to present particular T cell epitopes, 22 persons from the donor panel were HLA-typed. The majority of persons who expressed DR2, and proliferated to NP also responded to the major immunodominant region 206-229. In addition, this peptide was also immunodominant in the one person expressing DRw13. The observation that recognition of this peptide is associated with DR2 was confirmed by using short term T cell lines and APC from a panel of typed donors. Further results with virus-specific T cell lines and clones and transfected L cells expressing DR molecules showed that DR1 could also present this peptide. Therefore the results suggest that recognition of 206-229 is associated with at least three different DR haplotypes and this may explain the high frequency with which this peptide is recognized in the population. The fine specificity of the response to peptide 206-229 was distinct when presented by DR1- or DR2-expressing APC. The DR1 response was dependent on the N terminus, and the DR2 response was directed to the C terminus of the peptide.
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PMID:Human T cell recognition of influenza A nucleoprotein. Specificity and genetic restriction of immunodominant T helper cell epitopes. 171 10

The contributions of the amino acids at 13 polymorphic positions in the HLA-DR7 beta 1 chain to T cell recognition of two antigenic peptides of tetanus toxin (p2 and p30) were assessed using transfectants expressing mutant DR7 beta 1 chains as APC for six toxin-specific T cell clones with two different restriction patterns: monogamous (restricted by DR7 only) or promiscuous (restricted by DR7; DR1; DR2, Dw21; and DR4, Dw4). Each of the 13 substitutions significantly decreased or eliminated the ability of the DR7 molecule to present a peptide to one or more of the T cell clones, but none of the substitutions abolished recognition by all clones. Interestingly, substitutions at positions 4 and 25, which are predicted in the class II model to be located outside the peptide binding groove, decreased the ability of the DR7 molecule to present Ag to some clones but not to others. Each of the four clones specific for the p2 peptide and the two clones specific for peptide p30 had a different reactivity pattern to the panel of DR7 beta 1 mutants, indicating that the TCR of each clone has a different view of the p2/DR7 or p30/DR7 complex. These data emphasize the complexity of the interactions of multiple residues in DR7 beta 1 chains in Ag-specific T cell recognition.
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PMID:Antigen-specific T cells with monogamous or promiscuous restriction patterns are sensitive to different HLA-DR beta chain substitutions. 204 Jul 99

We studied the polymorphisms of HLA-DR and HLA-DQ products from HLA-DRw13 haplotypes by analyzing the restriction of influenza A-specific cloned T cells from an HLA-DRw13,DQw1,Dw19 homozygous individual. The results show that some functional epitopes, which can be borne by either HLA-DR or HLA-DQ molecules, are strictly correlated with the HLA-Dw19 subtype of HLA-DRw13. This clearly indicates that both HLA-DR and HLA-DQ products contribute to the HLA-Dw19 subdivision of HLA-DRw13. At least two different restricting epitopes are borne by DR products: one is correlated with the HLA-DRw13 serologically defined specificity, which includes Dw19 and Dw18 haplotypes; the other is correlated with the only HLA-Dw19 subtype of HLA-DRw13. Restricting epitopes borne by DQ molecules have been found on Dw19 cells only. DQ-restricted clones were unable to react with DQw1 APC of any other haplotypes tested, including DR1, DR2-long, DR2-short, and DRw14, demonstrating a high degree of functional polymorphism among the serologically defined DQw1 specificities.
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PMID:Highly polymorphic products of both HLA-DR and HLA-DQ genes contribute to the polymorphism of the HLA-DRw13 haplotype. 242 44

Murine L cells expressing the products of transfected HLA-DR1 genes functioned as APC for two influenza-specific, human Th cell clones with comparable efficiency to a DR1-expressing human lymphoblastoid cell line. In order to investigate the restriction specificity of the two Th clones, a transfectant expressing the species-mismatched MHC class II dimer DR1:I-E was tested as an APC. Both T cells showed no loss of Ag sensitivity due to substitution of the murine chain. One of the Th clones, TLC 72, showed even greater degeneracy by responding to Ag in the context of I-Ek. Taking into account the lower level of MHC class II expression on the I-Ek transfectant, there is remarkably little loss of efficiency of Ag-induced T cell activation due to the substitution of I-E for DR as restriction element. The Ag-specific responses of both clones were inhibited by anti-CD4 antibody when DR-transfected L cells or human lymphoblastoid cells were used as APC. This inhibition was also seen when Ag was presented to TLC72 by the I-Ek-expressing transfectant. Whether this inhibition is the result of negative signaling or of blocking an interaction between human CD4 and I-Ek is discussed. Similarly the inhibitory effects of mAb against the T cell accessory molecule LFA/1 were the same for both clones when either the transfectants or the lymphoblastoid cell line were used as APC, suggesting that L cells may express a molecule that is capable of acting as a ligand for human LFA/1. The results presented here further illustrate the value of transfectants in analyzing T cell recognition and accessory cell requirements. The patterns of degeneracy of MHC restriction exhibited by these clones provides a platform for a more detailed analysis of key residues involved in MHC class II-restricted T cell Ag recognition.
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PMID:Structural and functional studies of HLA-DR restricted antigen recognition by human helper T lymphocyte clones by using transfected murine cell lines. 245 38

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

The B chain of mammalian insulins contains appropriately spaced amino acids that predict recognition by T cells. However, all T cell clones from an HLA-DR1, Dw6 diabetic donor recognize epitopes associated with the A chain, and the B chain was found to inhibit these responses. Effective intramolecular competition at the level of the APC, not a direct effect on the T cell, is responsible for the inhibition. Insulin B chain contains two clusters of amino acid homology with the TCR beta chain and B chain peptides lacking these clusters do not compete for antigen presentation. A hole in the repertoire for T cells that recognize this portion of the insulin molecule may arise in the thymus by deletion of T cells that recognize similar peptides.
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PMID:Insulin B chain functions as an effective competitor of antigen presentation via peptide homologies present in the thymus. 247 79

Recent work has indicated the significance of IL-4- and IL-5-secreting allergen-specific human Th2 lymphocytes in the control of immune responses to allergens in atopic individuals. The precise allergenic epitopes that activate these allergen-specific Th2 cells are, however, hardly known. We analyzed the epitope-specificity of T lymphocytes specific for Der p II, one of the major allergens of house dust mite Dermatophagoides pteronyssinus. Using a panel of overlapping synthetic peptides that span the entire Der p II molecule, we could demonstrate that polyclonal Der p II-specific T cell lines prepared from the peripheral blood of five atopic patients can react with at least 10 different epitopes of the molecule. Each donor showed a different pattern of reactivity with the synthetic peptides, suggesting that Der p II contains multiple T cell epitopes that may differ from individual to individual. We studied the specificity of the T cell response to Der p II in more detail in one atopic patient using a short term polyclonal T cell line that strongly reacted to one single peptide (116-129) of the allergen. From this patient we established a panel of 11 Der p II-specific TLC. Ten TLC were of the CD3+ CD4+ phenotype and showed a high IL-4/IFN-gamma production ratio, whereas another TLC expressed CD3 and CD8 and failed to secrete substantial IL-4 and IFN-gamma. The use of at least four different TCR V beta gene segments was shown within this panel TLC. All TLC tested recognized the allergen in an HLA-DR1-restricted manner. Although this patient reacted to only one peptide on the polyclonal level, two T cell epitopes were identified on the clonal level by using synthetic peptides and autologous APC to stimulate the TLC. Combining data of CD4/CD8 expression, TCR V beta usage, and epitope specificity, at least six different types of Der p II-specific TLC could be identified within this patient. Binding of IgE to all synthetic peptides of Der p II is low and of low affinity, which may be of particular importance with respect to possible desensitization protocols using such peptides.
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PMID:T cell epitopes of house dust mite major allergen Der p II. 768 99


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