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1.
The transmembrane hydrophobic domain of the type A influenza A/JAPAN/305/57 (H2N2) hemagglutinin (HA) contains an immunodominant site encompassing amino acids 523-545 (J523-545) recognized by class I MHC-restricted cytolytic T lymphocytes (CTL). Class I CTL of two fine specificity subsets map to this transmembrane (TM) site. One of these CTL subpopulations is subtype specific. These T lymphocytes recognize the site generated during infection of target cells with A/JAPAN/305/57 virus (H2N2) but not target cells expressing the comparable TM site of the influenza A/PR/8/34 virus (H1N1) hemagglutinin (P527-549) after infection with this virus. The other CTL subpopulation is cross-reactive and recognizes the TM site of the A/JAPAN/305/57 HA and the A/PR/8/34 HA with similar efficiency. Analyses of the critical amino acids in the TM site necessary for CTL recognition with the use of synthetic peptides unexpectedly revealed reactivity for the A/PR/8 HA TM site by subtype-specific CTL. This reactivity was only observed with truncated peptides corresponding to a limited portion of the A/PR/8 HA TM site but also required peptide concentrations greater than 10(-7) M. These results suggested either that the endogenously processed A/PR/8 HA TM site generated during infection was larger than the site defined by the truncated cross-reactive peptides or that the concentration of endogenously processed TM site produced during infection was limiting. To distinguish between these possibilities, we expressed in target cells synthetic minigenes encoding only the portion of the A/PR/8 HA transmembrane sites defined by the synthetic peptides. Unlike the peptides, the "preprocessed" endogenous minigene products were not recognized by subtype-specific CTL. These data suggest that the level of available endogenously processed Ag rather than selectivity in the site of fragmentation of newly synthesized Ag may play a critical role in determining whether the complex of the antigenic moiety and class I MHC is efficiently presented to and recognized by class I CTL.  相似文献   

2.
A polypeptide fragment obtained by CNBr cleavage of the hemagglutinin from A/JAPAN/305/57 influenza virus has been purified by using high performance liquid chromatography. The first five N-terminal amino acids as determined by sequential Edman degradations have localized this peptide to the HA2 subunit of the hemagglutinin between residues 103 and 123. This peptide, denoted HA2(103-23), can generate both proliferative and cytolytic responses from spleen cells of BALB/c mice previously immunized with A/JAPAN/305/57. These results demonstrate that a single nonglycosylated fragment of the influenza hemagglutinin as small as 21 amino acid residues is capable of being recognized as an antigenic determinant to generate influenza CTL from primed precursors.  相似文献   

3.
Cytotoxic T lymphocytes (CTL) play an important role in recovery from a number of viral infections. They are also implicated in virus-induced immunopathology as best demonstrated in lymphocytic choriomeningitis virus (LCMV) infection of adult immunocompetent mice. In the present study, the structure of the T-cell receptor (TCR) in LCMV-specific CTL in C57BL/6 (B6) mice was investigated. Spleen T cells obtained from LCMV-infected mice were cultured in vitro with virus-infected stimulator cells and then stained with anti-TCR V beta antibodies. A skewing of V beta usage was noticeable in T cells enriched for their reactivity to LCMV, suggesting that particular V segments are important for the recognition of LCMV T-cell epitopes in B6 mice. To gain more detailed information on the structure of the TCR specific for LCMV epitopes, we studied CTL clones. It has been shown that approximately 90% of LCMV-reactive CTL clones generated in H-2b mice are specific for a short peptide fragment of the LCMV glycoprotein, residues 278 to 286, recognized in the context of the class I major histocompatibility complex molecule, Db. Four CTL clones possessing the specificity were randomly selected from a collection of clones, and their TCR genes were isolated by cDNA cloning or by the anchored polymerase chain reaction. All four clones were found to use V alpha gene segments belonging to the V alpha 4 subfamily. By RNA blot analysis, two more clones with the same specificity were also shown to express the V alpha 4 mRNA. In contrast, three different V beta gene segments were used among the four clones examined. J beta 2.1 was used by three of the clones. Although amino acid sequences in the V(D)J junctional regions were dissimilar, aspartic acid was found in the V alpha J alpha and/or V beta D beta J beta junctions of all four of these clones, suggesting that this residue is involved in binding the LCMV fragment. Restricted usage of V alpha and possibly J beta segments in the CTL response to a major T-cell epitope of LCMV raises the possibility that immunopathology in LCMV infection can be treated with antibodies directed against such TCR segments. Thus, similar analysis of the TCR in other virus infections is warranted and may lead to therapeutic strategies for immunopathology due to virus infections.  相似文献   

4.
The antigenic requirements for in vitro proliferation of several cloned continuous lines of H-2-restricted influenza virus-specific cytotoxic T lymphocytes (CTL) has been examined. The cloned CTL lines were established from individual splenic CTL precursors obtained from A/JAPAN/305/57 (H2N2)-immune F1 (C57BL/6 X BALB/c) donors. The lines were isolated (by limiting dilution in liquid culture) and expanded in the presence of A/JAPAN/305/57-infected irradiated syngeneic (F1) spleen cells and T cell growth factor (TCGF) of rat spleen origin. Optimal proliferation (and long-term in vitro cultivation) of these H-2-restricted CTL lines required both specific antigenic stimulation in the form of virus-infected syngeneic spleen cells and an exogenous source of TCGF. In addition, the antigenic requirements for proliferation of these lines directly reflected the pattern of H-2-restricted influenza virus-specific recognition at the level of target cell recognition and lysis.  相似文献   

5.
The diversity of T cell receptors specific for self MHC gene products   总被引:1,自引:0,他引:1  
Cytolytic and helper T cells exhibit, in addition to their specificity for foreign antigen, a restriction specificity for self MHC gene products. The present study was designed to assess the degree of diversity within the repertoire of receptors that are involved in T cell recognition of self MHC gene products. For this purpose, we generated a series of murine cytolytic T lymphocyte (CTL) clones specific for a hapten antigen and restricted to the self MHC gene product H-2Kb. An analysis of the hapten fine specificity of these clones by using hapten analogues revealed the presence of substantial diversity within the repertoire of CTL receptors specific for the hapten. The degree of diversity within the repertoire of self H-2 recognition structures on these clones was assessed by testing clones on panels of syngeneic, congenic H-2K disparate, and H-2Kb mutant target cells bearing varying amounts of antigen. A striking degree of heterogeneity in H-2K recognition was found among these H-2Kb restricted CTL. We estimate that there are probably a minimum of 65 different patterns of H-2K recognition among these clones. Our results suggest a high degree of diversity exists within the repertoire of self MHC recognition structures on antigen-specific T cells restricted to a single self MHC gene product.  相似文献   

6.
The enterotoxins of Staphylococcus aureus (SE) are extremely potent activators of human and mouse T lymphocytes. In general, T cell responses to SE are MHC class II dependent (presumably reflecting the ability of SE to bind directly to MHC class II molecules) and restricted to responding cells expressing certain T cell receptor beta-chain variable (TCR V beta) domains. Recently we demonstrated that CD8+ CTL expressing appropriate TCR V beta could recognize SE presented on MHC class II-bearing target cells. We now show that MHC class II expression is not strictly required for T cell recognition of SE. Both human and mouse MHC class II negative target cells could be recognized (i.e., lysed) in a SE-dependent fashion by CD8+ mouse CTL clones and polyclonal populations, provided that the CTL expressed appropriate TCR V beta elements. SE-dependent lysis of MHC class II negative targets by CTL was inhibited by mAb directed against CD3 or LFA-1, suggesting that SE recognition was TCR and cell contact dependent. Furthermore, different SE were recognized preferentially by CTL on MHC class II+ vs MHC class II- targets. Taken together, our data raise the possibility that SE binding structures distinct from MHC class II molecules may exist.  相似文献   

7.
BALB/c-H-2dm2 mice (H-2KdI-AdI-EdDd), a congenic strain of BALB/c mice, have a deletion of the class I MHC Ag, H-2Ld. This gene encodes the exclusive class I MHC-restricting gene product for vesicular stomatitis virus-specific cytolytic T lymphocytes. When dm2 mice were immunized with infectious vesicular stomatitis virus, a specific CTL response was generated. These CTL lysed VSV-infected targets that expressed Iad gene products, but not VSV-infected Iad- targets. The CTL were used initially as long term cytolytic lines; 13 CTL clones were derived by limit dilution. All of the clones expressed the phenotype CD3+, CD4+, CD8-; some clones expressed TCR that are members of the V beta 8 family, others did not. The clones were restricted by class II MHC Ag, both I-Ad and I-Ed serving as restricting elements for individual clones of the panel. All of the clones derived from dm2 mice were specific for the immunizing serotype, Indiana, of VSV and did not lyse syngeneic cells infected with VSV of the New Jersey serotype. Studies using defective interfering virus particles, UV light-inactivated virus, and purified micelles of the viral glycoprotein indicated that infectious virus was not required for sensitization of target cells for immune recognition by the class II MHC-restricted CTL clones. Additional studies using recombinant vaccinia virus vectors to sensitize targets confirmed the specificity of the clones for the viral glycoprotein. These studies also demonstrated a cryptic population of class II-restricted CTL in BALB/c lines specific for VSV G. Naturally occurring variant viruses and mutant viruses, selected for escape from neutralization by mAb, were used in an effort to map the determinant(s) recognized; on the basis of patterns of target cell lysis, three groups of epitopes recognized by the clones were defined. Therefore, in the absence of the class I MHC Ag required for a CTL response to VSV, dm2 mice generated CTL with the CD4+ phenotype that recognized different epitopes on the viral glycoprotein, and lysed cells in a class II-MHC restricted, Ag-specific manner.  相似文献   

8.
Two peptides corresponding to HA1(181-204) and HA2(103-123) of the A/Japan/305/57 influenza virus hemagglutinin (HA) were chemically synthesized by solid-phase methods and were tested for their ability to generate murine secondary anti-influenza cytolytic T lymphocytes (CTL) in vitro and to bind monoclonal anti-HA antibodies. Peptide HA1(181-204) could only generate CTL in the presence of helper factors contained in supernatant fluids from either Concanavalin A-stimulated mouse spleen cultures or WEHI-3 cells grown in vitro. Peptide HA2(103-123) stimulated the induction of anti-influenza CTL independent of helper factors, but the stimulation was also greatly increased if helper factors were added. A 10-fold molar excess of peptide HA2(103-123) was required to obtain optimal CTL activation over the quantities required in the HA1(181-204) system. This molar ratio remained unchanged, even in the presence of helper factors. Induction of influenza-specific CTL was antigen-dependent in both systems, even though some killing of noninfected target cells was also occasionally observed. Our results suggest that synthetic peptides can be recognized as antigenic determinants in the generation of H-2-restricted anti-viral CTL capable of killing appropriately infected target cells. The inability of peptide HA1(181-204) to generate sufficient help for CTL development suggests that certain regions of the HA can be recognized by CTL precursors, but not by all of the required helper cells. Peptide HA1(181-204) also reacted with three monoclonal anti-HA antibodies as well as mouse anti-influenza (A/Japan/305/57) immune sera. This antibody reactivity suggests the possibility of a shared antigenic epitope or region between T and B cells, and therefore provides new insight in our understanding of viral antigenicity.  相似文献   

9.
Fine specificity analysis of human influenza-specific cloned cell lines   总被引:1,自引:0,他引:1  
Influenza-specific human-T-cell clones, proliferating in the presence of virus-infected cells with restriction by class II molecules and displaying class II-restricted CTL activity or specific helper activity in antibody synthesis, have been analyzed for antigenic specificities. All of them were obtained by in vitro stimulation against influenza A/Texas virus. In all cases the virus specificity appeared identical in cytolytic and proliferative responses. Three of the clones were broadly cross-reactive, recognizing all or almost all type A influenza strains. The three remaining clones were subtype specific when tested with human strains and recognized the surface glycoproteins of influenza virus. One of these lines reacted with an epitope of the neuraminidase N2 while the other two recognized the hemagglutinin H3. By using a large panel of mammalian and avian influenza strains, it can be demonstrated that hemagglutinin-specific human T cells can recognize a cross-reacting determinant shared by H3 and H4 subtypes of hemagglutinin which has never been detected with antibodies.  相似文献   

10.
It is reported here that most cytotoxic T lymphocytes (CTL), which recognize class I major histocompatibility complex (MHC) loci, express the T cell differentiation antigen T8. However, a minority of T8+ CTL clones was found to recognize class II MHC antigens. To test the hypothesis that T8 is involved only in T cell recognition of class I MHC antigens, we studied the role of T8 in the cytotoxic activity of class II MHC-specific CTL. Monoclonal antibodies specific for T8 blocked the activity of most class I MHC-specific CTL clones but did not affect the activity of class II MHC-specific CTL clones. Moreover, a mild trypsin treatment of the clones, which removed and T8 determinant, affected the activity of class I MHC but not that of class II MHC-specific CTL clones. These findings indicate that the class II-specific MHC CTL clones described here did not require T8 for their cytolytic activity. The activity of one T8+ class I MHC-specific (HLA-B27) CTL clone (HG-61) against the B cell line JY, which was used to raise this CTL clone, was not blocked by trypsin treatment of this clone. However, the activity of CTL clone HG-61 against target cells different from JY but carrying the appropriate HLA specificity was blocked by anti-T8 antibodies and trypsin treatment. The implications of these findings for the hypothesis that T8 is involved only in the activity of CTL with a relatively low avidity for class I MHC antigens are discussed.  相似文献   

11.
H-2b class I-restricted, TNP-specific CTL clones were obtained by limiting dilution cloning of either short term polyclonal CTL lines or spleen cells of TNP-immunized mice directly ex vivo. Sequence analyses of mRNA coding for TCR alpha- and beta-chains of 11 clones derived from CTL lines from individual C57BL/6 mice revealed that all of them expressed unique but clearly nonrandom receptor structures. Five alpha-chains (45%) employed V alpha 10 gene elements, and four of those (36%) were associated with J beta 2.6-expressing beta-chains. The alpha-chains from these four TCR, moreover, contained an acidic amino acid in position 93 of their N or J region-determined sequences. Clones isolated directly from spleen cells carried these types of receptors at lower frequency, 27% V alpha 10 and 19% J beta 2.6, indicating that bulk in vitro cultivation on Ag leads to selection for these particular receptors. However, even in TNP-specific CTL cloned directly ex vivo, V alpha 10 usage was increased about fivefold over that in Ag-independently activated T cells in H-2b mice (4 to 5%). The selection for V alpha 10/J beta 2.6-expressing cells was obtained repeatedly in other TNP-specific CTL lines from C57BL/6 mice but not in FITC-specific CTL from the same strain or in TNP-specific CTL lines from B10.BR (H-2k) or B10.D2 (H-2d) mice. We conclude from this (a) that the selection for V alpha 10/J beta 2.6+ T cells is driven by the complementarity of these receptors to a combination of TNP and MHC epitopes and (b) that predominant receptor structures reflect the existence of a surprisingly limited number of "T cell-relevant" hapten determinants on the surface of covalently TNP-modified cells.  相似文献   

12.
Endogenous peptides constitutively bind to class I MHC Ag and are thought to be integral parts of allospecific T cell epitopes. However, allospecific TCR can recognize structural features of the alloantigen as foreign. To define some crucial parameters determining HLA-B27 allorecognition, the structure of TCR alpha- and beta-chains from HLA-B27-specific CTL was analyzed. A strategy, based on V alpha and V beta family-specific oligonucleotides, was used for specific amplification and direct sequencing of TCR-alpha and -beta cDNA. We observed nonrandom usage of V beta segments and recurrent structural motifs within beta-chain junctional regions. In contrast, no structural restrictions were apparent among alpha-chains, even from CTL clones of related fine specificity. These results indicate an asymmetric contribution of TCR alpha- and beta-chains to HLA-B27 allospecificity among the CTL clones analyzed. They suggest recognition of multiple peptides and involvement of beta-chain junctional regions in recognizing shared motifs among some of these peptides.  相似文献   

13.
CD8 is a heterodimeric membrane glycoprotein on MHC class I-restricted T lymphocytes that cooperates with the alpha beta CD3 TCR in the recognition of MHC class I molecules presenting antigenic peptides. Co-operation has two components: enhancement of the affinity of MHC/peptide-TCR interaction, and signal transduction through the T cell membrane. The cytolytic function of CTL is primarily dependent on the affinity-enhancement component of CD8-TCR cooperation whereas activation of resting CD8+ T cells is primarily dependent on transmembrane signaling. Using a panel of mAb, two to the alpha-chain and three to the beta-chain of CD8, we investigated the relationships between epitopes and functional regions of the CD8 molecule. Two of the antibodies, one to the alpha-chain and one to the beta-chain of CD8, inhibit the cytolytic function of CTL but not the generation of CTL from resting T cells. Another two antibodies, also one to the alpha- and one to the beta-chain, inhibited the generation of CTL while enhancing the cytolytic function of CTL. These results suggest that both the alpha- and beta-chain of CD8 possess two distinct regions, one involved in affinity enhancement and the other in transmembrane signaling. The former may be the MHC class I-binding region whereas the latter may associate with the alpha beta CD3 TCR. The data can explain the apparent functional equivalence of CD8 alpha alpha homodimers and alpha beta heterodimers.  相似文献   

14.
AKR/Gross leukemia virus-induced tumor reactive cytotoxic T lymphocyte (CTL) clones were derived from C57BL/6 spleen cells. Analysis of their specificity pattern was performed by using a panel of target cells such as E male G2 and AKR.H-2bSL1 (susceptible tumors to polyclonal anti-AKR/Gross virus CTL), and cl. 18-5 and cl. 18-12 (insusceptible variant sublines derived from AKR.H-2bSL1). Several of these CTL clones were selected for further study. Lysis of Gross cell surface antigen-positive tumor cells by these clones was restricted by the H-2Kb molecule. The cell surface phenotype of these clones was Thy-1.2+, Lyt-2.2+, L3T4-, a phenotype consistent with that of polyclonal anti-AKR/Gross CTL, suggesting that they were of conventional CTL origin. According to their fine specificity pattern, the CTL clones were divided into two major groups (A and B) which were further subdivided into five and three subgroups, respectively. The specificity of group A clones was essentially the same as that of the standard polyclonal CTL population except for a variable level of natural killer-like activity by some of the CTL clones. That is, group A clones did not efficiently lyse the insusceptible variant tumors nor any of Friend-Moloney-Rauscher-positive tumors tested, but they showed strong lytic activity to susceptible tumors and iododeoxyuridine-treated insusceptible variants. Thus, their CTL activity appeared to be strictly directed to Gross cell surface antigen-positive tumors that are susceptible to polyclonal anti-AKR/Gross virus CTL. In contrast, group B clones could lyse both susceptible and insusceptible variant tumors and also a Friend virus-induced tumor (FBL3). Therefore, as defined by these CTL clones, at least two distinct antigenic systems (A and B), each with several antigenic determinants, appeared to be present. Because recent findings suggested that most of the polyclonal anti-AKR/Gross virus CTL activity appeared to be directed to N-ecotropic proviral determinants, we further investigated the nature of these two antigenic systems by use of additional target cells including lipopolysaccharide (LPS)-stimulated spleen cell blasts from AKXL recombinant inbred strains and retrovirus-infected fibroblasts. Group A clones could lyse all LPS blasts derived from AKXL recombinant inbred strains containing the AKV-1 proviral genome, but lysed only very insufficiently or did not lyse AKV-1-negative blasts containing the AKV-3 and/or AKV-4 provirus.(ABSTRACT TRUNCATED AT 400 WORDS)  相似文献   

15.
Previous studies have indicated that in transgenic mice expressing human class I MHC molecules, it is difficult to demonstrate a significant CTL response to a viral Ag in the context of the transgenic molecule. In this paper, a procedure is reported for the isolation of influenza-specific murine CTL restricted by the human class I molecule HLA-A2.1. The principal specificity of such CTL is for a fragment of the influenza M1 protein that has been previously shown to be immunodominant for human HLA-A2.1-restricted CTL. CTL of this specificity were also established through the use of peptide-pulsed rather than virus-infected stimulators. The dependence of murine CTL recognition upon peptide length and HLA-A2 structure was established to be similar to that previously reported for human CTL. However, the fine specificity of CTL maintained on virus-infected stimulators was somewhat different from that of CTL maintained with M1 peptide. This suggests that differences in surface density or peptide structure between peptide-pulsed and virus-infected stimulators may result in the outgrowth of T cells with different receptor structures. The immunodominance of the M1 peptide determinant in both mice and humans suggests that species-specific differences in TCR structure, Ag-processing systems, and self-tolerance are of less importance than limitations on the ability of antigenic peptides to bind to appropriate class I molecules. These results thus establish the utility of the transgenic system for the identification of human class I MHC-restricted T cell epitopes.  相似文献   

16.
Cytotoxic T lymphocytes (CTL) recognize virus peptide fragments complexed with class I major histocompatibility complex (MHC) molecules on the surface of virus-infected cells. Recognition is mediated by a membrane-bound T-cell receptor (TCR) composed of alpha and beta chains. Studies of the CTL response to lymphocytic choriomeningitis virus (LCMV) in H-2b mice have revealed that three distinct viral epitopes are recognized by CTL of the H-2b haplotype and that all of the three epitopes are restricted by the Db MHC molecule. The immunodominant Db-restricted CTL epitope, located at LCMV glycoprotein amino acids 278 to 286, was earlier noted to be recognized by TCRs that consistently contained V alpha 4 segments but had heterogeneous V beta segments. Here we show that CTL clones recognizing the other two H-2Db-restricted epitopes, LCMV glycoprotein amino acids 34 to 40 and nucleoprotein amino acids 397 to 407 (defined in this study), utilize TCR alpha chains which do not belong to the V alpha 4 subfamily. Hence, usage of V alpha and V beta in the TCRs recognizing peptide fragments from one virus restricted by a single MHC molecule is not sufficiently homogeneous to allow manipulation of the anti-viral CTL response at the level of TCRs. The diversity of anti-viral CTL likely provides the host with a wider option for attacking virus-infected cells and prevents the emergence of virus escape mutants that might arise if TCRs specific for the virus were homogeneous.  相似文献   

17.
The T cell response to microbial T cell mitogens (MTM) such as enterotoxins from Staphylococcus aureus (SE) and the soluble mitogen from Mycoplasma arthritidis, resemble the minor lymphocyte stimulatory locus (Mls) response in several aspects. An important feature of the Mls response is it restriction to CD4+ cells. This study demonstrates that in contrast to Mls, the MTM response includes both CD4+ and CD8+ subsets. Both CD4+ and CD8+ cells expanded in IL-2 after stimulation with SEB showed preferential expression of T cell receptors bearing V beta 8 domains. Mouse and human target cells could be lysed in the presence of MTM both by MTM-stimulated CD8+ lymphocytes and by MHC class I-restricted CTL clones of defined Ag specificity. MTM-induced lysis required the expression of MHC class II, but not class I Ag, on the target cells. Inhibition studies of SEB and Ag-dependent cytolysis by CTL clones underlined the crucial role of CD3 and LFA-1 in both instances, but showed CD8 dependence only for AG-dependent cytolysis. Together these findings suggest important differences between the putative MTM-mediated interaction of TCR with MHC molecules and the classical TCR/MHC interaction involved in MHC-restricted Ag recognition.  相似文献   

18.
The fine specificity of virus recognition by influenza A/PR8/34(H1N1)-specific cytolytic T lymphocyte (CTL) clones was analyzed with the use of a panel of syngeneic target cells infected with five heterologous influenza A strain viruses. Forty-five H-2 D-end-restricted CTL clones from B10.A(5R) responders (Dd,Ld) demonstrated 14 different patterns of recognition. Many of these clonotypes were able to distinguish between closely related viruses of the same subtype. Such discriminatory capacity, however, was often accompanied by cross-reactivity against a distantly related viral subtype. This supports the contention that virus-specific CTL see different structures than do virus-specific antibodies. A similar analysis of the fine specificity of 60 Db-restricted clones from C57BL/6 responders was performed. The vast majority of this response was composed of clonotypes not observed in the B10.A(5R) response. In addition, the hierarchy of relatedness between the virus strain used for immunization and the various heterologous viruses was different in C57BL/6 and B10.A(5R). In contrast, the D-end-restricted response of Balb/c (Dd,Ld) demonstrated clonotypes similar to those found in B10.A(5R). These data suggest that determinant recognition in an anti-viral CTL response is a function of the H-2 restricting elements, and this is discussed in the context of determinant selection by class I molecules.  相似文献   

19.
In Lewis rats, immunization with myelin basic protein induces two distinct encephalitogenic T cell populations, those responding to the immunodominant 72-89 epitope and those specific for a secondary epitope including residues 87-99. The 72-89 specific T cells were I-A restricted and preferentially expressed V beta 8.2 in their TCR. To determine the fine specificity, MHC restriction, and TCR V beta gene use in T cells reactive to the secondary epitope, we characterized 23 T cell clones from the lymph nodes (LN) and spinal cords (SC) of rats immunized with either whole basic protein or synthetic peptides S85-99 and S87-99 that were found to be functionally similar. The S85-99/S87-99 specific clones from LN and SC were all encephalitogenic despite differences in recognition of intact basic protein and class II MHC restriction. Unlike LN clones that overexpressed V beta 8 (46%+) and V beta 6 (31%+), however, SC clones were strongly biased (86%+) in their expression of V beta 6. This V gene bias raised the possibility of TCR peptide therapy using V beta 6 peptides. The V beta 6 sequence was similar to V beta 8.2 in the CDR2 region, and the corresponding peptides from this region were found to be cross-reactive in vivo. Moreover, both peptides were effective in the treatment of EAE induced with either S85-99, biased in V beta 6+ and V beta 8+ T cells, or guinea pig basic protein, biased only in V beta 8+ T cells. These data demonstrate the presence of common immunogenic epitopes among subsets of TCR V region gene families that possess important regulatory activity on effector T cell function.  相似文献   

20.
Human cytotoxic T cell clones were generated against autologous EBV-transformed B lymphocytes. Whereas the majority of the clones expressed the T8 surface glycoproteins and showed a specificity for class I MHC gene products on the target cell, a minority expressed the T4 surface glycoprotein and demonstrated a class II specificity. Monoclonal antibodies to T4 and T8 inhibited cytotoxic effector function of reactive clones in a fashion analogous to their effect on alloreactive CTL clones. Each autoreactive T cell clone was cytotoxic for EBV-transformed B lymphocytes but not pokeweed mitogen-activated or resting autologous lymphocytes, suggesting a dual specificity for an MHC gene product as well as an antigen induced and/or encoded by virus. Taken together, the present findings provide further support for the notion that T4 and T8 serve as associative recognition elements on T lymphocytes for MHC gene products.  相似文献   

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