T cell receptor repertoire for a viral epitope in humans is diversified by tolerance to a background major histocompatibility complex antigen.

Two unusual characteristics of the memory response to the immunodominant Epstein-Barr virus (EBV) epitope FLRGRAYGL, which associates with HLA B8, have provided an unique opportunity to investigate self tolerance and T cell receptor (TCR) plasticity in humans. First, the response is exceptionally restricted, dominated by cytotoxic T lymphocytes (CTL) with identical TCR protein sequences (Argaet, V. P., C. W. Schmidt, S. R. Burrows, S. L. Silins, M. G. Kurilla, D. L. Doolan, A. Suhrbier, D. J. Moss, E. Kieff, T. B. Sculley, and I. S. Misko. 1994. J. Exp. Med. 180:2335-2340). Second, CTL expressing this receptor are cross-reactive with the alloantigen HLA B* 4402 on uninfected cells (Burrows, S. R., R. Khanna, J. M. Burrows, and D. J. Moss. 1994. J. Exp. Med. 179:1155-1161). No CTL using this conserved public TCR could be reactivated from the peripheral blood of EBV exposed individuals expressing both HLA B8 and B*4402, demonstrating the clonal inactivation of potentially self-reactive T cells in humans. A significant FLRGRAYGL-specific response was still apparent, however, and TCR sequence analysis of multiple CTL clones revealed an oligoclonal TCR repertoire for this determinant within these individuals, using diverse V and J gene segments and CDR3 regions. In addition, a significant public TCR component was identified in which several distinct alpha/beta rearrangements are shared by CTL clones from a number of unrelated HLA B8+, B*4402+ donors. The striking dominance of public TCR in the response to this EBV epitope suggests a strong genetic bias in TCR gene recombination. Fine specificity analysis using peptide analogues showed that, of six different antigen receptors for FLRGRAYGL/HLA B8, none associate closely with the peptide's full array of potential TCR contact residues. Whereas the HLA B*4402-cross-reactive receptor binds amino acids toward the COOH terminus of the peptide, others preferentially favor an NH2-terminal determinant, presumably evading an area that mimics a structure presented on HLA B*4402. Thus, tolerance to a background major histocompatibility antigen can effectively diversify the TCR repertoire for a foreign epitope by deflecting the response away from an immunodominant combination of TCR-binding residues.

Development of Epstein-Barr virus-specific memory T cell receptor clonotypes in acute infectious mononucleosis.

The importance of cytotoxic T lymphocytes (CTLs) in the immunosurveillance of Epstein-Barr virus (EBV)-infected B cells is firmly established, and the viral antigens of CTL recognition in latent infection are well defined. The epitopes targeted by CTLs during primary infection have not been identified, however, and there is only limited information about T cell receptor (TCR) selection. In the present report, we have monitored the development of memory TCR-beta clonotypes selected in response to natural EBV infection in a longitudinal study of an HLA-B8+ individual with acute infectious mononucleosis (IM). By stimulating peripheral blood lymphocytes with HLA-B8+ EBV-transformed B lymphoblastoid cells, the primary virus-specific CTL response was shown to include specificities for two HLA-B8-restricted antigenic determinants, FLRGRAYGL and QAKWRLQTL, which are encoded within the latent EBV nuclear antigen EBNA-3. TCR-beta sequence analysis of CTL clones specific for each epitope showed polyclonal TCR-beta repertoire selection, with structural restrictions on recognition that indicated antigen-driven selection. Furthermore, longitudinal repertoire analysis revealed long-term preservation of a multiclonal effector response throughout convalescence, with the reemergence of distinct memory T cell clonotypes sharing similar structural restrictions. Tracking the progression of specific TCR-beta clonotypes and antigen-specific TCR-V beta family gene expression in the peripheral repertoire ex vivo using semiquantitative PCR strongly suggested that selective TCR-beta expansions were present at the clonotype level, but not at the TCR-V beta family level. Overall, in this first analysis of antigen-specific TCR development in IM, a picture of polyclonal TCR stimulation is apparent. This diversity may be especially important in the establishment of an effective CTL control during acute EBV infection and in recovery from disease.

Dominant selection of an invariant T cell antigen receptor in response to persistent infection by Epstein-Barr virus.

To examine T cell receptor (TCR) diversity involved in the memory response to a persistent human pathogen, we determined nucleotide sequences encoding TCR-alpha and -beta chains from HLA-B8-restricted, CD8+ cytotoxic T cell clones specific for an immunodominant epitope (FLRGRAYGL) in Epstein-Barr virus (EBV) nuclear antigen 3. Herein, we show that identical TCR protein sequences are used by clones from each of four healthy unrelated virus carriers; a clone from a fifth varied conservatively at only two residues. This dominant selection of alpha and beta chain rearrangements suggest that a persistent viral infection can select for a highly focused memory response and indicates a strong bias in gene segment usage and recombination. A novel double-step semiquantitative polymerase chain reaction (PCR) procedure and direct sequencing of amplified TCR cDNA from fresh lymphocytes derived from three HLA-B8 individuals detected transcripts specific for the conserved beta chain in an EBV-seropositive donor but not in two seronegative donors. This report describes an unprecedented degree of conservation in TCR selected in response to a natural persistent infection.

Cyclophilin of Schistosoma japonicum.

A 623-bp cDNA molecule encoding cyclophilin, a specific cyclosporin A-binding protein, has been isolated from Schistosoma japonicum using a heterologous cDNA probe from Echinococcus granulosus. The nucleotide sequence of this molecule has been determined, and the deduced amino acid sequence has revealed extensive homology with homologues of other species. Southern blot analysis suggests that S. japonicum cyclophilin is the product of a single-copy gene. The cloning of this cDNA will allow an investigation of cyclophilin as a possible target of the antischistosome effects of cyclosporin A.

Purification of the Escherichia coli regulatory protein TyrR and analysis of its interactions with ATP, tyrosine, phenylalanine, and tryptophan.

A plasmid that directs the overexpression of the Escherichia coli regulatory protein TyrR was constructed. Cell extracts of an E. coli strain harboring the plasmid were used to develop a two-step procedure for purifying homogeneous TyrR. The weight-average molecular weight of the pure protein was determined by sedimentation equilibrium analyses to be 110,000 +/- 5,000, indicating that native TyrR is a homodimer. The binding of ligands to TyrR was investigated by the techniques of sedimentation velocity meniscus depletion and steady state dialysis. One mol of ATP bound per mol of TyrR subunit with half-maximal saturation at 5-7 microM ATP. ATP binding curves exhibited positive cooperativity, with a value of 1.3 for the Hill constant, nH. The binding was not significantly affected by the presence of either 500 microM tyrosine or 2 mM phenylalanine. Binding of tyrosine to TyrR (40 microM subunit) could not be detected in the absence of ATP, indicating that the TyrR-tyrosine complex has a dissociation constant (Kd) in excess of 180 microM. However, binding was observed in the presence of saturating ATP (200 microM), where 1 mol of tyrosine bound per mol of TyrR subunit with half-maximal saturation at 50 microM tyrosine. The binding exhibited positive cooperativity (nH of 1.2). There was no detectable binding of either phenylalanine or tryptophan to TyrR (40 microM) in the absence or presence of 200 microM ATP, indicating that any binding of these amino acids to TyrR or TyrR.ATP also has a Kd in excess of 180 microM. Each of these amino acids was found to inhibit the binding of tyrosine by TyrR.ATP when present in large molar excess (20 microM tyrosine and 2 or 10 mM phenylalanine or tryptophan), indicating that TyrR binds each of these amino acids, albeit more weakly than it binds tyrosine.

Evidence for two aromatic amino acid-binding sites, one ATP-dependent and the other ATP-independent, in the Escherichia coli regulatory protein TyrR.

In Escherichia coli, genetic regulation of aromatic amino acid biosynthesis and uptake is effected by the protein TyrR, which acts via ligand-mediated repression and activation. Characterization of the interactions of tyrosine, phenylalanine and tryptophan with TyrR revealed the presence of two separate aromatic amino acid-binding sites, one ATP-dependent, the other ATP-independent. Binding to the ATP-dependent site induces the self-association of TyrR. Using sedimentation equilibrium analyses, dissociation constants for this site in the dimeric and hexameric forms of TyrR were determined to be 330 microM and 24 microM, respectively, for tyrosine, and 55 mM and 3.7 mM, respectively, for phenylalanine. Tryptophan bound with a strength similar to that of phenylalanine, and both phenylalanine and tryptophan competed with the binding of tyrosine. The ATP-independent site, which has not been observed previously, was characterized by ultraviolet (u.v.) difference spectroscopy and a sedimentation-velocity meniscus-depletion method. Phenylalanine bound co-operatively to this site, exhibiting half-saturation at 260 microM. Tryptophan competed weakly with phenylalanine, half-saturation occurring at 1.2 mM. No binding of tyrosine to this site could be detected. We propose that the binding of phenylalanine or tryptophan to this ATP-independent site is responsible for phenylalanine- and tryptophan-mediated regulation by TyrR.