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)

The kinetics of presentation of class II-restricted T cell determinants of influenza virus hemagglutinin (HA) was investigated over a 48-h time course after pulsing of A20 B lymphoma APC with non-replicative virus or isolated HA. At intervals after Ag pulse, APC were fixed with paraformaldehyde to arrest Ag processing and to preserve the expression levels of the presented determinants. Expression of T cell sites at each time point was probed by a panel of BALC/c T hybridomas specific for the HA of influenza A/Puerto Rico/8/34 virus, recognizing either site 1 (residues 111 to 119), site 2 (126 to 138), or site 3 (302 to 313). Characteristic patterns of presentation were observed for each site: sites 2 and 3 achieved maximal expression by 8 h post pulse, but declined thereafter, whereas site 1 presentation continued to increase over time. The quantitative expression of each T cell site was affected by the proteolysis inhibitor leupeptin, resulting in partial inhibition of site 1, complete blocking of site 2, but enhancement of site 3. However, the expression kinetics of sites 1 and 3, which could be observed in the presence of the inhibitor, remained qualitatively unchanged. These observations indicate that some T cell determinants (e.g., HA site 1) may exhibit a greater longevity of expression on APC than other antigenic sites of the same protein. Differences in the persistence of surface expression of distinct T cell sites may be a factor in their relative immunodominance.
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PMID:Individual class II-restricted antigenic determinants of the same protein exhibit distinct kinetics of appearance and persistence on antigen-presenting cells. 245 19

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

Two human T cells clones are described which react with influenza virus hemagglutinin type H3 and synthetic peptides of H3 when presented by PBMC APC. Both T cell clones also responded to peptide Ag in the absence of additional APC suggesting that T cells can simultaneously present and respond to Ag. T cell clones could only present peptide Ag and not an appropriate strain of inactivated whole influenza virus thus indicating an inability to process Ag conventionally. Peptide presentation by T cells was dose dependent, restricted by MHC class II Ag and was dependent on the number of Ag presenting T cells per culture. Experiments with nested peptides showed that the same epitope was recognized in the presence and absence of PBMC APC. No Ag or IL-2 from the propagation procedure was carried over into assays and two-color fluorescence-activated cell sorter analysis of each clone detected no contaminating cells with the phenotype of monocytes, macrophages or B cells; in each T cell clone, all cells expressing MHC class II Ag co-expressed CD3. These date therefore provide strong evidence that human T cell clones can simultaneously present and respond to appropriate forms of Ag.
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PMID:Human T cell clones present antigen. 247 52

Neonatal ferrets are protected against infection with influenza virus by milk-derived anti-influenza virus IgG after suckling on an immune mother. Live vaccines protect better than killed vaccines despite their stimulation of lower maternal haemagglutination-inhibiting antibody levels. This suggests that antibody to virus proteins other than the haemagglutinin may also be involved. To investigate this, adult ferrets were immunized intradermally with live vaccinia-influenza virus recombinants each expressing one of the 10 influenza virus polypeptides. Adult ferrets immunized with a recombinant expressing the H3 haemagglutinin were completely protected, and also passively protected their offspring, against a live challenge with clone 7a of the reassortant influenza virus A/Puerto Rico/8/34-A/England/939/69 (H3N2), immunity being mediated by IgG antibody. However, ferrets immunized similarly with recombinants expressing the H1 haemagglutinin, neuraminidase (N1 or N2), polymerases (PB1, PB2 or PAC), matrix protein (M1 or M2), nucleoprotein (NP) or non-structural proteins (NS1 or NS2) were completely susceptible to the influenza virus.
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PMID:Mechanism of immunity to influenza: maternal and passive neonatal protection following immunization of adult ferrets with a live vaccinia-influenza virus haemagglutinin recombinant but not with recombinants containing other influenza virus proteins. 273 21

The contribution of viral infectivity to the expression of MHC class II-restricted T cell determinants was studied. A murine I-Ed-restricted T cell hybridoma recognizing the neuraminidase (NA) glycoprotein of influenza PR8 virus was stimulated strongly by infectious virus but failed to recognize antigen introduced on noninfectious virions. Recognition correlated with the de novo synthesis of viral NA within infected APC. The effectiveness of infectious virus did not depend strictly upon the amount of NA present in cultures, since high NA concentrations could be achieved by addition of nonreplicative virus without being stimulatory for NA-specific T cells. Recognition of a determinant generated only when synthesized in murine host cells was ruled out, since, in high concentration, NA isolated from purified egg-grown virions, even if reduced and alkylated, was recognized by the T hybridoma clone. Isolated NA was recognized when added to pre-fixed APC, suggesting that this form of antigen was able to bypass the usual processing pathway of exogenous proteins. Data suggest that endogenously synthesized antigen may contribute most significantly to presentation of labile T cell determinants. In addition to NA, recognition of an I-Ed-restricted determinant of the influenza hemagglutinin (HA) molecule, shown previously to have a relatively short half-life on APC surfaces, was enhanced greatly by infectious virus. In contrast, T cell recognition of a more stably expressed I-Ed-restricted site of the same HA polypeptide was only marginally improved on infected APC.
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PMID:Class II major histocompatibility complex-restricted T cells specific for a virion structural protein that do not recognize exogenous influenza virus. Evidence that presentation of labile T cell determinants is favored by endogenous antigen synthesis. 278 81

We used well-gassed hanging drop (20 microliters) cultures with high concentrations of purified T cells from normal BALB/c mice to examine whether dendritic cells (DC) can induce primary antiviral proliferative T cell responses and generate virus-specific CTL. We found that DC exposed to infectious influenza virus in vitro or in vivo in small numbers (0.1-1%) resulted in strong proliferation of responder T cells within 3 d, and this was strongly inhibited by antibodies to class II MHC molecules. In addition, in 5-d cultures, the influenza-treated DC generated CTL specifically able to lyse influenza-infected syngeneic target cells bearing MHC class I antigens. The most potent nucleoprotein (NP) epitope recognized by BALB/c CTL is peptide 147-158 (Arg156-) and influenza-infected DC in vitro stimulated CTL recognizing this peptide, thus mimicking the response in mice primed by intranasal influenza infection. We also induced T cell proliferation and virus-specific CTL in cultures of normal T cells by stimulating with DC pulsed with the natural NP sequence 147-158 or the potent peptide 147-158 (Arg156-). Small numbers of peritoneal exudate cells, after activation with Con A to produce class II MHC expression and after removal of DC with a specific mAb (33DI), did not lead to primary CTL generation but initiated secondary stimulation in vitro. Our results using the hanging drop culture method and DC as APC have implications for studying the T cell repertoire for viral components in humans without the necessity of previous immunization.
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PMID:Primary stimulation by dendritic cells induces antiviral proliferative and cytotoxic T cell responses in vitro. 278 83

A retrovirus vector containing the hemagglutinin (HA) gene of influenza virus was constructed and used to infect murine cell lines of fibroblast, mastocytoma and B cell lineages which are able to present antigens to MHC-restricted T cells. Stable cell lines were selected in which the retrovirus vector integrated as a single copy in almost all of the individual cell clones examined. The HA mRNA was shown to be of the expected length by Northern blot analysis, but the levels varied among the cell clones. Although the HA transcript was difficult to detect in any of the retrovirus-infected cell clones derived from fibroblasts, HA Ag was easily detected on the cell surface by cytofluorographic analysis. Significantly, retrovirus-infected clones derived from each cell type were recognized by HA-specific class I and class II MHC-restricted T lymphocytes. HA produced in these cells was able to be acquired, processed, and presented to class II-restricted T cells by additional, non-HA-expressing APC. This indicates that HA endogenously synthesized within these cell lines is available for Ag processing by an exogenous route.
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PMID:Murine cell lines stably expressing the influenza virus hemagglutinin gene introduced by a recombinant retrovirus vector are constitutive targets for MHC class I- and class II-restricted T lymphocytes. 278 61

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

Rationally attenuated strains of Salmonella expressing foreign proteins represent a potentially important vaccine delivery system. The characteristics of Ag presentation of influenza nucleoprotein expressed in an AroA- strain of Salmonella typhimurium (SL3262-pNP-2) have therefore been compared with those of soluble purified nucleoprotein (NP) and infectious influenza virus. This represents three distinct modes of internalization of the same protein into APC. Human monocytes and the monocytic leukemia cell line THP-1 infected with SL3261-pNP-2 were found to present several different epitopes from NP to human CD4+ class II-restricted T lymphocytes. Ag presentation to these T cell clones was enhanced by pretreatment of THP-1 cells with IFN-gamma but not TNF-alpha. Bacterial phagocytosis and Ag presentation of NP were increased after opsonization of Salmonella with immune serum. Macrophages infected with SL3261-pNP-2 were unable to present NP to class I-restricted T cells. In contrast, cells infected with live influenza virus, although recognized by NP-specific class I-restricted CTL, were inefficiently recognized by NP-specific class II-restricted T cells. Ag presentation to CD4+ T cell clones by monocytes of SL3261-pNP-2, purified recombinant NP, and live influenza virus, but not the synthetic peptide 206-229, was inhibited by chloroquine and the protease inhibitors pepstatin A and leupeptin, suggesting that the major route of processing in each case was via the exogenous pathway. T cell recognition of NP via all of these Ag delivery systems was also abrogated by cycloheximide and brefeldin A treatment, indicating a requirement for recently synthesized MHC class II molecules in presentation of whole NP after processing but not for the corresponding synthetic peptide.
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PMID:Comparison of antigen presentation of influenza A nucleoprotein expressed in attenuated AroA- Salmonella typhimurium with that of live virus. 768 Oct 81

The four members of the HLA-DR11 family of class II molecules vary only by three or fewer amino acids via dimorphisms among DR beta-chain residues 67, 71, and 86. However, they differ markedly in their abilities to induce proliferation of DR(alpha,beta 1*1101)-restricted, peptide-specific T cell clones. To dissect which DR11-variable residues, individually and in combination, mediate these functional differences, we used as APC transfectants expressing DR molecules with one of all possible permutations of DR11-variable sequences, including the four DR11 family members, and four additional DR11 variant mutants. The abilities of the wild-type or mutant molecules to present two distinct influenza peptide Ags, HA307-19 and HA128-45, to T cells was assessed in in vitro T cell proliferation assays. Of the naturally dimorphic DR11 positions, residue beta 71 variation significantly influenced the ability of DR11 molecules to present both peptides to DR(alpha,beta 1*1101)-restricted T cells. Residue beta 86 variation had relatively less influence than reported in several other DR and peptide systems. Residue beta 67 variation usually appeared irrelevant to T cell proliferation, but in two mutants led to unexpected T cell proliferation independent of nominal peptide Ag. Peptide binding, assessed by flow cytometry, was not found to be altered by any mutations that disrupted DR(alpha,beta 1*1101)-like presentation. These data indicate that residue beta 71 exerts a central role in influencing the functional differences among DR11 molecules, whereas the widely studied dimorphism of residue beta 86 is not as generally influential in DR11 as in other alleles.
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PMID:Individual effects of the DR11-variable beta-chain residues 67, 71, and 86 upon DR(alpha,beta 1*1101)-restricted, peptide-specific T cell proliferation. 798 58

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