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)

Although cognate, MHC-restricted interaction of Th cells with Ag-presenting B cells provides effective help to a resting B cell, substantial B cell responses have also been seen with preactivated T cell clones that cannot recognize Ag on the B cell but apparently interact in a noncognate fashion (the bystander response). Here, we have investigated the ability of distinct Th cell subsets and T cells activated by different stimuli to support such bystander B cell responses. We have also determined which cytokines are involved. We generated distinct CD4+ T cell subsets specific for both alloantigen (using normal mice) and cytochrome c (using TCR transgenic mice). To compare cognate and bystander help, we analyzed the response of allogeneic (cognate) vs syngeneic (bystander) resting B cells in the former case, and the response of syngeneic B cells in the presence vs absence of Ag, in the latter case. Both approaches gave similar results. T cells stimulated with Ag for 24 h (naive and memory cells) or generated from naive cells over 4 days in the presence of exogenous IL-2 ("Th1-like" effectors) induced B cells to secrete minimal amounts of bystander Ig (20 to 700 ng/ml), less than 6% of the Ig induced under cognate conditions. In contrast, effectors generated in IL-4 or IL-6 ("Th2-like" and "Th0-like") induced significantly more bystander Ig (4 to 9 micrograms/ml), which was 18 to 30% of the amount produced during a cognate response. Restimulation of Th cell populations with anti-CD3, instead of Ag/APC, enhanced their ability to induce bystander Ig to levels 40 to 100% of those produced through cognate interaction. The addition of anti-cytokine Ab to bystander responses indicated that the cytokines utilized were similar to those mediating response after cognate interaction. Addition of exogenous cytokines did not specifically enhance the extent of the bystander response as a function of the cognate response. These results suggest that most Th cells can efficiently activate only those B cells that present relevant Ag on class II MHC, but that highly activated/differentiated Th effectors also have the ability to induce significant bystander B cell responses through noncognate interactions. We also conclude that the mode of Th cell activation and the cytokines encountered during Th differentiation play a major role in the capacity of helper cells to initiate a bystander response.
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PMID:Analysis of CD4+ T cells that provide contact-dependent bystander help to B cells. 135 66

There is controversy regarding the ability of short term (2 to 3 days) cultured epidermal Langerhans cells (cLC) to process and present intact protein Ag to primed T cells. Some studies have shown that cLC are potent APC for both haptens and intact protein Ag, whereas in others cLC have been unable to process and present intact protein Ag. In an attempt to resolve this controversy, we tested the ability of Langerhans cells from several strains of mice to process and present intact protein Ag to T cell clones and T cell hybridomas. We found that both cLC and freshly prepared Langerhans cells from various Iak mice, including BALB.k mice, process and present intact protein antigens (i.e., hen egg lysozyme, cytochrome c, and OVA) to T cells. These functions are retained in cLC cultured for 7 days. In contrast, cLC from Iad mice do not process intact protein Ag, such as hen egg lysozyme and myoglobin, although they can present relevant peptides to specific T cells and are potent stimulators of allogeneic responses. Furthermore, cLC from (Iak x Iad)F1 mice process and present intact protein Ag to Iak-restricted T cells, but not to Iad-restricted T cells. Although cLC that processed and presented intact protein Ag to T cells exhibited enhanced class II MHC expression, they were, on a per cell basis, somewhat less efficient than were fresh Langerhans cells. Finally, we found that if Iad Langerhans cells are pulsed with intact protein Ag and then cultured for 3 days, they are then fully capable of inducing Ag- and MHC-specific T cell proliferation.
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PMID:The ability of cultured Langerhans cells to process and present protein antigens is MHC-dependent. 184 34

The participation of the host in eliminating Ag-specific T hybridoma cells after their in vivo activation was studied. In our model system, treatment of the cytochrome c-specific T cell hybridoma 2B4.11 in vitro with Ag in the context of histocompatible APC results in cellular activation, as shown by IL-2 release and growth inhibition. In vivo treatment with Ag results in tumor cell elimination as a result both of a direct inhibitory effect of cytochrome c that is mediated through the 2B4.11 TCR and to the induction of host immunity. In vivo lymphocyte-depletion studies showed that CD8-bearing cells were critical to the successful elimination of tumor cells mediated by Ag, whereas depletion of CD4-bearing cells had only minor effects on the outcome. Cytotoxic cells from mice cured by Ag treatment lysed only 2B4.11 among a panel of related tumors, although in vivo cross-protection studies showed that 2B4.11-immune mice were also resistant to the growth of BW5147 and C10.9. Because spleen cells from 2B4.11 immune mice did not recognize 2B4.11 or other related tumors in proliferation assays, we concluded that a participant(s) with memory and specificity, not assayed in vitro, was also involved in the mediation of the immune effects observed. For therapies based on the use of less selective agents, i.e. mAb that share the activating properties of Ag but can react with T cell neoplasms of unknown specificity, it would appear that a relatively intact immune system is required for maximal success.
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PMID:T cell tumor cure by T cell receptor-mediated activation requires the development of CD8-dependent host immunity. 215 71

The immune responses of B10.A and B10.A(3R) strains of mice to a synthetic variant of moth cytochrome c 86-103 were compared, and an immune response difference between the two strains was found. When T cell hybridomas were made from both strains it was found that the responsive T cells showed degenerate MHC restriction. The hybridomas from B10.A(3R) mice consistently showed a specificity pattern, when tested with allogeneic B10.A APC, different from that seen when syngeneic B10.A(3R) APC were used. The difference in the immune responses of the two strains of mice could be attributed to this APC-expressed specificity. The results were analyzed to determine whether the portion of the antigen that effected T cell memory (the epitope) and the portion that effected APC-expressed specificity (the agretope) were independent. It was found that a) these sites overlap and b) the APC-expressed specificity (i.e., the specificity of agretope recognition) was dependent on the T cell clonotype. This implies that the agretope is not an independent parameter in the process of MHC-restricted antigen recognition. Therefore its employment as an explanation for various phenomena will be limited by the likelihood of circularity.
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PMID:The sites of antigen-T cell and antigen-MHC interactions overlap. 241 83

Previous experiments have demonstrated that the immune response of MHC congenic mice to pigeon cytochrome c is under Ir gene control. Expression of I-E-encoded gene products influences both the magnitude and fine specificity of the Th cell response to pigeon cytochrome c and phylogenetic derivatives. Results of those experiments implicate both determinant selection and repertoire selection as mechanisms of Ir gene control in this system. In this report we have compared the TCR expressed in pigeon cytochrome c-reactive Th cells from B10.A(I-Ek), B10.A(5R) (I-Eb), and B10.S(9R) (I-Es) mice. The B10.A(5R) strain is a low responder to pigeon cytochrome c, but in response to moth cytochrome c this strain produces T cells which respond to pigeon or moth cytochrome c on B10.A APC. These cells are phenotypically identical to the predominant clonal phenotype seen in the B10.A response to pigeon cytochrome c. In this report, we show that the B10.A and B10.A(5R) pigeon cytochrome c-reactive T cells express essentially identical T cell receptors. These results, coupled with recent studies reporting a relatively low affinity for I-Eb molecules by pigeon cytochrome c peptides compared with moth cytochrome c peptides, strongly argue that the immune response defect in the B10.A(5R) strain is due to a defect in Ag presentation (determinant selection). In contrast, B10.A and B10.S(9R) strains are high responders to pigeon cytochrome c. Both strains produce T cell clones which are capable of responding to cytochrome c presented by either B10.A or B10.S(9R) APC in vitro. We show that, even in T cells with this MHC restriction degeneracy, the TCR expressed in the two strains are different. Because the APC of both strains can clearly present the cytochrome c Ag, we conclude that the differential expression of the TCR in the responses is due to a T cell repertoire selection difference in the two strains. Thus, for the response to one Ag in three MHC congenic strains, there exists evidence that both determinant selection and repertoire selection can be mechanisms of Ir gene control of an immune response.
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PMID:Two distinct mechanisms account for the immune response (Ir) gene control of the T cell response to pigeon cytochrome c. 245 67

We recently demonstrated that the sequence 95-104 contains all the residues necessary for direct recognition of the I-Ek restricted pigeon cytochrome c determinant but that residues located in sequences to the amino-terminal side of residue 95 improve the ability of peptides containing the sequence 95-104 to stimulate Ag-specific T cell clones. In this study we use synthetic peptides with amino-terminal leader sequences containing residues that differ with respect to their conformational stabilizing effects, charge, and hydrophilicity to examine the mechanism by which they modulate T cell recognition. Our findings indicate that the role of these residues in T cell stimulation is not related to their ability to stabilize alpha-helical secondary structure, nor do they appear to be processed differently. The leader sequences do not differentially influence the ability of the peptides to be presented by APC displaying Ia molecules of related haplotype, i.e., E alpha kE beta k, E alpha kE beta b, and E alpha kE beta s, to T cells which recognize the pigeon cytochrome c determinant on such presenting cells. Because antigenic potency correlates with the inclusion of hydrophobic residues and positively charged residues in the leader sequences, we discuss our findings with reference to the possibility that they non-specifically enhance the interaction of the antigenic peptides with the APC membrane.
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PMID:The activation of pigeon cytochrome c-specific T cell hybridomas by antigenic peptides is influenced by non-native sequences at the amino terminus of the determinant. 245 90

The interaction of TCR, antigen, and MHC complex has been analyzed using synthetic peptide antigens and a series of single amino acid-substituted analogues. Two similar antigens, mouse cytochrome c (mcyt c) and pigeon cytochrome c (pcyt c), elicit T cell responses in strains of mice bearing MHC class II Ek beta Ek alpha (B10.A), Eb beta Ek alpha [B10.A(5R)], and Es beta Ek alpha [B10.S(9R)]. The immunogenic regions of these antigens are located in the peptide sequence p88-104 for pcyt c and m88-103 for mcyt c. The limited T cell repertoire for these antigens is comprised of four groups of T cell phenotypes that have very few differences in their TCR gene make up. In this paper, we examine the diversity in their fine specificity for each of the antigens, m88-103 and p88-104, complexed with each of the I-Ek haplotypes. Epitopes, i.e., residues that interact with the TCR, and agretopes, i.e., residues in the MHC-binding site, were assigned for the two peptide antigens in the presence of APC bearing E beta kEk alpha, Eb beta Ek alpha, or Eb beta Ek alpha using T cell hybridomas of the phenotypes I, IIIa, and IV. From our results, we conclude that first, the substitution of any residue between 95 and 104 of the cytochrome c peptide changed the antigenic potency of the peptide for at least one of the hybridomas. Second, each T cell type has a different recognition pattern of epitopes and agretopes for a particular antigen-MHC complex, thus, ruling out a static model of T cell recognition, which assigns certain, invariant agretopic residues to the peptide by which it interacts with the MHC molecule independently of the TCR. Third, the same T cell hybridoma responded to the antigens differently when presented on various MHC molecules, implying that overall changes in the MHC groove, as displayed by the three haplotypes, may affect the efficiency in binding the peptide. Fourth, since most of the residues are used as epitopes by at least one of the T cell specificities, the peptide appears to be recognized in a different conformation by each T cell hybridoma phenotype; and, finally, the epitopic and agretopic residues do not segregate, for any one of the T cell specificities, in such a way that suggests they are recognized in a helical conformation. In summary, our results suggest that a single peptide may generate diversity in the T cell response by virtue of its conformational flexibility within the TCR-MHC-antigen complex.
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PMID:Analysis of peptide binding patterns in different major histocompatibility complex/T cell receptor complexes using pigeon cytochrome c-specific T cell hybridomas. Evidence that a single peptide binds major histocompatibility complex in different conformations. 255 48

This paper describes an adjuvant-free immunization regimen that results in the priming of T cells but not B cells. B10.A mice were primed s.c. with syngeneic spleen cells that had been pulsed with the peptide 81-104 derived from pigeon cytochrome c. The T cell response was measured by using a sensitive limiting dilution assay that measures lymphokine production. The precursor frequency of Ag-specific cells found in these mice was indistinguishable from the frequency found in mice primed in the footpads with 81-104 in CFA. A striking difference in antibody induction was found, however, when these two immunization regimens were compared. Mice primed with 81-104 in CFA developed significant serum antibody responses against the peptide, whereas mice primed with Ag-pulsed spleen cells produced no detectable anti-peptide antibodies. This lack of antibody did not result from detectable differences in the T cells that were primed: no differences were seen in IL-2 and IL-4 production or in the ability to provide help to B cells in vitro. In vitro stimulation with LPS suggested that the B cells were not primed by the Ag-pulsed spleen cells. The B cells were not tolerized, however, because boosting the mice with Ag in CFA resulted in the induction of an antibody response. The failure to induce an antibody response by priming with Ag-pulsed spleen cells was not caused by the site of immunization or the total amount of Ag used for priming. The critical variable may be the introduction of the Ag on the surface of an APC; in this form, B cell Ag recognition was apparently inefficient, whereas T cell Ag recognition was optimal.
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PMID:In vivo priming of helper T cells in the absence of B cell activation. 255 72

Th cell recognition of globular proteins requires the uptake and intracellular processing of the native Ag by an APC to produce a peptide fragment containing the T cell antigenic determinant, which is recognized in conjunction with Ia. This report describes the time course of the processing and presentation of a soluble globular protein Ag, pigeon cytochrome c (Pc), and of the presentation of a C-terminal peptide fragment of Pc, residues 81 to 104 (Pc 81-104), which does not require processing. Splenic B cells, acting as APC, require 6 to 8 h incubation with native Pc to process and present it to an I-Ek-restricted Pc-specific T cell hybrid, resulting in the secretion of IL-2. Moreover, the time required for B cells to process Pc is the same whether the Ag is taken up by nonspecific fluid phase pinocytosis or by binding to surface Ig. Once processed, Ag is lost from the B cell surface by 8 to 12 h, although when provided with fresh Pc, the same B cells are still capable of processing and presenting. In contrast to native Pc, only 1 to 2 h are required for the peptide fragment Pc 81-104 to become associated with B cells in a stimulatory fashion, and this time is similar for live and paraformaldehyde-fixed B cells, which cannot internalize or process the peptide. Washed free of excess peptide after 2 h, B cells lose their ability to stimulate T cells by 8 to 12 h, with a time course indistinguishable from that for the loss of processed native Pc. Prolonged incubation of B cells with the peptide for 18 to 24 h results in a dramatic loss of the ability to present Pc 81-104. Even when provided with fresh Pc or Pc 81-104, these cells have diminished ability to present these Ag. This loss is selective, inasmuch as these B cells remain equivalent to untreated B cells in the presentation of an unrelated Ag, OVA, to an I-Ak-restricted specific T cell. However, the ability to present another I-Ek-restricted antigenic peptide of the D glycoprotein of HSV to its specific T cell is also diminished. Loss of activity is observed after incubation only with the peptide and not with the native protein and is not due to a depletion of the antigenic peptide from the incubation medium.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Time dependence of B cell processing and presentation of peptide and native protein antigens. 283 35

The helper T cell recognition of soluble globular protein antigens requires that the proteins be processed by an APC, releasing a peptide that is transported to and held on the APC surface where it is recognized by the specific T cell in conjunction with Ia. When cellular processing functions are blocked, APC lose their ability to present native antigens while retaining the capacity to activate T cells when provided with a cognate peptide fragment that contains the T cell antigenic determinant. In this report, we show that a peptide fragment of the soluble globular protein antigen tobacco hornworm moth cytochrome c, residues 92-103 containing an additional NH2-terminal cysteine residue (THMcCys92-103), is effectively presented by B cells to an I-Ek-restricted, THMc-specific T cell hybrid when covalently coupled to antibodies specific for B cell surface Ig, Ia (Ak), or class I (Kk). Maximal activation of the T cells to the THMcCys92-103-antibody conjugates is achieved with 1/100-1/1,000th of the peptide required using unconjugated THMcCys92-103 or THMcCys92-103 coupled to nonspecific antibody. The T cell response to the peptide antibody conjugates is MHC restricted, but unlike native cytochrome c-antibody conjugates, THMcCys92-103-antibody conjugates do not require processing and can be presented by paraformaldehyde-fixed B cells. The THMcCys92-103-antibody conjugate are nearly as effective when incubated with B cells, and the unbound conjugates washed away before addition of T cells as when continuously present in culture with T cells and B cells, indicating that the active peptide antibody conjugate is associated at the B cell surface. The presentation of THMcCys92-103 coupled to monovalent Fab fragments of rabbit anti-Ig antibodies is less effective than that of the peptide coupled to bivalent antibody when either live or fixed B cells are APC, indicating that the avidity for the APC surface afforded by bivalent binding may be important in the conjugate's antigenicity. The results presented here indicate that a T cell-antigenic peptide, covalently coupled to a larger antibody molecule, can be readily recognized by an Ia-restricted helper T cell in the absence of processing. Moreover, the ability of the peptide to bind to B cell surfaces greatly augments the peptide's antigenicity, even when the binding is to structures distinct from the Ia molecule required for T cell activation.
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PMID:Enhanced T cell responses to antigenic peptides targeted to B cell surface Ig, Ia, or class I molecules. 284 Apr 79

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