Is the activity of partially agonistic MHC:peptide ligands dependent on the quality of immunological help?

CD8(+) cytotoxic T lymphocytes (CTL) are important for the immunological control of infections and tumours. Engagement of the T-cell receptor (TCR) with major histocompatibility complex (MHC) class I/peptide complexes on antigen-presenting cells (APC) is the key interaction, which initiates the process of T-cell activation. Depending on the affinity of this interaction, different arrays of signalling pathways and functional outcomes can be activated in the specific T cells. Molecular alterations in the peptide bound to the MHC class I can lead to a lower affinity of the MHC:TCR interaction resulting in incomplete or qualitatively different T-cell responses. Altered peptide ligands (APL) exhibiting such activity are referred to as partial agonists and often occur naturally through genetic instability, which affects T-cell epitopes derived from rapidly mutating viruses or tumour-associated cellular antigens. Partial agonists are usually viewed as peptide variants, which escape efficient CTL recognition. Our recent data suggest that APL can not only trigger incomplete activation but also induce and modulate intrinsic T-cell programmes leading to the shut-off of specific CTL responses. This APL-induced suppression appears to be more prominent in the absence of immunological help, suggesting that under conditions of immune deregulation APL may actively inhibit CTL responses against infectious agents or tumours. In this review, we discuss experimental data supporting this model and possible role of APL-induced immunosuppression in different pathological conditions.

Pharmacological disintegration of lipid rafts decreases specific tetramer binding and disrupts the CD3 complex and CD8 heterodimer in human cytotoxic T lymphocytes

Accumulating evidence strongly supports the role of lipid rafts in the regulation of T-lymphocyte activation, but the organization and molecular composition of these cholesterol- and sphingolipid-rich membrane microdomains in different subsets of T cells remain poorly investigated. Here, we show that pharmacological disruption of lipid rafts in human CD8+ cytotoxic T-lymphocyte (CTL) clones disturbs the integrity of CD3 complex and CD8 heterodimer, without affecting the reactivity with T-cell receptor (TCR)-specific antibodies. This demonstrates that interaction with completely assembled CD3 complex is not required for the stable expression of TCR at the cell surface. The effect of raft disruption on CD3 and CD8 expression correlates with failure to bind specific tetrameric complexes by a proportion of surface TCR molecules. However, the interaction of specific tetramer with the rest of surface TCR pools appears to be unaffected, demonstrating that TCR-signalling complexes may differ in their requirement for cholesterol to stably maintain their composition and to rearrange for efficient tetramer binding. Together with previously published data, our results support the existence of molecular and/or structural heterogeneity of lipid rafts that may play an important role in controlling distinct functional properties of T-cell subsets.

Cytolytic T cell reactivity to Epstein-Barr virus is lost during in vitro T cell expansion

In the setting of allogeneic hematopoietic stem cell transplantation, ex vivo culturing of donor T lymphocytes is a necessary step for processes such as gene modification. Often the aim is to enable control of undesired alloreactivity after in vivo administration of the cultured cells. However, it is not fully understood how T cell reactivity against donor and third-party targets is affected by the ex vivo cell culturing process. We have assessed how the activity of anti-Epstein Barr virus (EBV)-specific T lymphocytes from healthy EBV-seropositive donors is affected by in vitro cell culturing. Peripheral blood mononuclear cells (PBMCs) were expanded in X-VIVO 15 culture medium supplemented with 5% human serum. The cells were stimulated by either OKT3 (10 ng/ml) and interleukin (IL)-2 (500 U/ml) or by using anti-CD3/CD28-coated immunomagnetic beads and IL-2 (100 U/ml). Induction of polyclonal EBV-specific cytotoxic T lymphocyte cultures was attempted by stimulation of the in vitro-expanded cells at different time points during the cell expansion process, with pre-established autologous EBV-transformed lymphoblastoid cell lines (LCLs). While EBV-specific cytotoxic T lymphocytes (CTL) were generated from untreated PBMCs of 5 healthy donors, EBV-specific cytotoxicity was significantly decreased or absent in CTL cultures established from in vitro-expanded PBMCs. Our results indicate that the ex vivo cell expansion process itself significantly reduces the activity and/or the number of EBV-specific T cells. Additional stimulation with CD28 antibodies could not prevent this effect. Because T cell depleted bone marrow or stem cell grafts are known to contribute to the development of post transplant lymphoproliferative disorders, this should be taken into consideration if one considers expanding and administering PBMCs in conjunction with a T cell-depleted stem cell grafts.

Different programs of activation-induced cell death are triggered in mature activated CTL by immunogenic and partially agonistic peptide ligands

Activation-induced cell death (AICD) of mature T cells plays an important role in the control of immune homeostasis and peripheral tolerance. TNFRs and Fas have been implicated in the induction of AICD. However, these molecules were shown to be dispensable, at least in some experimental systems, for downsizing of Ag-induced T cell expansions and development of tolerance in vivo. The conditions of T cell activation leading to T cell deletion in a death receptor-independent manner are not well characterized. Here we show that human CTLs die through a death receptor-independent apoptotic program upon triggering with a partially agonistic peptide ligand. This apoptotic process exhibits some features of T cell death due to lymphokine deprivation and is blocked by exogenous IL-2. Our data demonstrate that engagement of TCR by MHC-peptide complexes can trigger diverse apoptotic programs of AICD and that the choice between these programs is determined by the agonistic potency of MHC-peptide ligand.

Poor immune reconstitution after four or five major HLA antigens mismatched T cell-depleted allogeneic and autologous stem cell transplantation

Two adults with primary liver cancer underwent liver transplantation from 5/6 and 4/6 major HLA-antigen mismatched unrelated donors. They were then conditioned with 4 x 2 Gy of total lymphoid irradiation, 120 mg/kg cyclophosphamide, 7.5 Gy total body irradiation and anti-T cell antibodies. Thereafter, the patients received T cell-depleted autologous: unrelated mismatched bone marrow in a proportion of 0.5:3.0 and 0.35:1.1 x 10(6) CD34+ cells/kg, respectively. After allogeneic stem cell transplantation (ASCT), both became mixed chimeras, as determined with polymerase chain reaction amplification of variable number tandem repeats from DNA obtained from CD3+, CD19+ and CD45+ magnetic bead-separated cells. Due to a reduction in donor T cells, the first patient was given 10(5) donor T cells/kg and became a complete donor chimera within 3 months. The second patient rejected all donor cells within 1 month after ASCT. Leucocytes normalized in both patients within 1 month. CD8+ cells normalized after 4 and 2 months in the two patients, respectively. However, CD4+, CD56+ and CD19+ cells remained low, except for a transient increase in patient 2. Lymphocyte responses to mitogens were negative in patient 1 from 1 to 5 months after ASCT. This patient also showed an oligoclonal pattern of the B cell repertoire, performed by CDR3 spectratyping. Epstein-Barr virus DNA in lymphocytes increased by 4-5 log in both patients. Prior to ASCT, recipients and donors were mutually reactive in mixed lymphocyte cultures (MLC). In the first patient, who became a complete donor chimera, the chimera cells showed no response to recipient or donor, but a positive response to third party. In the other patient, recipient cells reacted vigorously against donor lymphocytes at the time of rejection. Both patients suffered from overwhelming bacterial, fungal and viral infections, and died of pneumonia 5 and 3 months after ASCT, respectively. To conclude, with a major HLA-mismatch barrier, stable mixed chimerism seems difficult to achieve. The first patient became a full donor chimera and the second one rejected the graft. Both suffered from immune incompetence.

Variations in proteasome subunit composition and enzymatic activity in B-lymphoma lines and normal B cells

We investigated the expression of interferon gamma (IFN-gamma)-regulated subunits and the enzymatic activity of proteasomes purified from tumor-derived and normal B lymphocytes representing different stages of B-cell activation/differentiation. The catalytic beta subunits (Lmp2 and Lmp7) and the regulatory subunits (PA28alpha and PA28beta) were expressed at equally high levels in Epstein-Barr virus (EBV)-transformed lymphoblastoid cell lines (LCLs), freshly isolated B-chronic lymphocytic leukemia (B-CLL) cells and normal CD23(-) B lymphocytes. Lmp2 and Lmp7 were selectively down-regulated in germinal center cell-derived Burkitt's lymphoma (BL) and Hodgkin's lymphoma (HD) cell lines. There was a direct correlation between the expression of Lmp2/7 and the chymotrypsin and trypsin-like activities in proteasomes purified from LCLs, BLs and CLL cells, whereas 5 HD cell lines expressing B or T-cell markers exhibited a variable pattern of subunit expression and enzymatic activity. Poor hydrolysis of the fluorogenic substrates by proteasomes from BL cells correlated with a distinct pattern of cleavage of a reference 50mer peptide, production of different sets of degradation products and significantly reduced recovery of a known cytotoxic T-lymphocyte (CTL) target epitope. The enzymatic activity of proteasomes from normal CD23(-) "resting" B lymphocytes resembled that of BL cells in spite of high Lmp2/7 expression. This pattern was not reversed by treatment with the B-cell mitogen, lipopolysaccharide (LPS). The results suggest that different stages of B-cell activation/differentiation are associated with distinct profiles of IFN-gamma-regulated subunit composition and enzymatic activity of the proteasome. This may have important implications for the analysis and manipulation of tumor-specific immune responses.

Supermotif peptide binding and degeneracy of MHC: peptide recognition in an EBV peptide-specific CTL response with highly restricted TCR usage

We have investigated the presentation and CTL recognition of an HLA A*1101-restricted CTL peptide epitope AVFDRKSDAK (AVF)(3), derived from the EBV nuclear antigen (EBNA) 4, in the context of alleles belonging to the A3-supertype, A*0101, 0301, 1101, 3101, 3301, and 6801. The peptide binds to a A*6801 molecule as efficiently as to A*1101. The A*6801:AVF complex is recognized by some A*1101-restricted AVF- specific CTL clones. However, A*6801-positive (A*6801+) EBV-transformed lymphoblastoid cell lines (LCLs) are not killed by the same effectors. Furthermore, two A*6801+ donors did not mount an AVF-specific CTL response in vitro and lacked detectable AVF-specific effectors. Thus, this epitope is either subdominant, or non-immunogenic in the context of A*6801. These characteristics correlate with low stability of this MHC:peptide complex in living cells. We also demonstrate that a highly conserved AVF-specific TCR that dominates the AVF-specific CTL response in the majority of A*1101+ individuals recognizes the A*6801 molecule as a crossreactive alloantigen. Therefore, deletion of AVF-specific T cells may contribute to the non-immunogenicity or subdominance of the peptide in A*6801+ individuals.

Regulation and role of IFN-gamma in the innate resistance to infection with Chlamydia pneumoniae

By using mice genomically lacking IFN-gammaR, IL-12, perforin, and recombination-activating gene-1 (RAG-1), we analyzed the regulation and importance of IFN-gamma in the control of infection with Chlamydia pneumoniae. IL-12 participates in resistance of mice to C. pneumoniae, probably by regulating the protective levels of IFN-gamma mRNA. In turn, IFN-gamma is necessary for the increased IL-12p40 mRNA accumulation that occurs in lungs during infection with C. pneumoniae, suggesting a positive feedback regulation between these two cytokines. In experiments including RAG-1-/-/IFN-gammaR-/- mice we showed that IFN-gamma produced by innate cells controls the bacterial load and is necessary for the increased accumulation of transcripts for enzymes controlling high output NO release (inducible NO synthase), superoxide production (gp-91 NADPH oxidase), and catalysis of tryptophan (indoleamine 2, 3-dioxygenase (IDO)), mechanisms probably related to bacterial killing. Adaptive immune responses diminish the levels of IFN-gamma and IL-12 mRNA and thereby the levels of inducible NO synthase, IDO, and gp91 NADPH oxidase transcripts. By using RAG-1-/-/perforin-/- mice, we excluded the overt participation of NK cell cytotoxicity in the control of C. pneumoniae. However, NK cells and probably other innate immune cells release IFN-gamma during the bacterial infection.

Effect of interleukin-7 on the in vitro development and maturation of monocyte derived human dendritic cells

We have compared the cell phenotype and functional properties of monocyte/macrophage derived dendritic cells (DCs) obtained by culture of human adherent peripheral blood mononuclear cells (PBMCs) in medium containing granulocyte macrophage colony stimulating factor (GM-CSF) either alone (GM-CSF-DCs), or in combination with interleukin (IL)-4 (IL4-DCs) or IL-7 (IL7-DCs). The cell surface phenotype of GM-CSF-DCs and IL-7-DCs was characterized by a high expression of major histocompatibility complex (MHC) class I and II, CD80, CD86 and CD40. In contrast to 'classical' IL-4-DCs, these two types of DCs expressed CD14 and a CD21-like molecule detected by two out of four CD21-specific monoclonal antibodies (MoAb) tested. The same pattern of reactivity with CD21 specific antibodies was observed in freshly isolated adherent PBMCs but not in B lymphocytes. This reactivity was upregulated by IL-7 in a dose dependent manner. Lipopolysaccharide (LPS) treatment induced the upregulation of CD40, CD80, CD86 and the T-cell stimulatory capacity in IL-4-DCs and, to a lesser extent, in the IL-7-DCs whereas GM-CSF-DCs responded very poorly to such treatment. Our data indicate that, together with GM-CSF, the IL-7 drives macrophage precursors to a differentiation stage that is close to but distinct from the phenotype of IL-4-DCs. Comparison of DC development in the presence of IL-7 or IL-4 may help in dissecting signalling pathways that regulate the expression of functionally relevant DC markers.

Epstein-Barr virus (EBV) load in bone marrow transplant recipients at risk to develop posttransplant lymphoproliferative disease: prophylactic infusion of EBV-specific cytotoxic T cells

A semiquantitative polymerase chain reaction assay was used to monitor the blood levels of Epstein-Barr virus (EBV)-DNA in 9 patients receiving allogeneic bone marrow transplants (BMT). Four of 5 recipients of HLA-mismatched T-cell-depleted grafts showed a 4- to 5-log increase of EBV-DNA within 1 to 3 months after BMT. Administration of 2 to 4 infusions of 10(7) EBV-specific cytotoxic T-lymphocytes (CTLs)/m(2) starting from the time of maximal virus load resulted in a 2- to 3-log decrease of virus titers in 3 patients. One patient, who received a T-cell culture lacking a major EBV-specific component, progressed to fatal EBV-positive lymphoma. Administration of EBV-CTLs before the onset of the EBV-DNA peak resulted in stabilization of the virus titers within 2 to 3 logs above the normal levels in the fifth patient. A moderate increase of virus titers was also detected in 3 of 4 patients receiving unmanipulated HLA-matched grafts, whereas 1 patient with Wiskott-Aldrich syndrome reached a 5-log increase of EBV-DNA load within 70 days after BMT. Our results suggest that a rapid increase of circulating EBV-DNA occurs in the absence of EBV-specific T-cell precursors or in the presence of congenital immune defects that prevent the reestablishment of virus-specific immunity. Prophylactic administration of EBV-CTLs early after BMT appears to provide the most effective protection against the development of EBV-associated lymphoproliferative disease.

A partially agonistic peptide acts as a selective inducer of apoptosis in CD8+ CTLs

We have analyzed the effect of partially agonistic peptides on the activation and survival of CTL clones specific for a highly immunogenic HLA A11-restricted peptide epitope derived from the EBV nuclear Ag-4. Several analogues with substitutions of TCR contact residues were able to trigger cytotoxic activity without induction of IL-2 mRNA and protein or T cell proliferation. Triggering with these partial agonists in the absence of exogenous IL-2 resulted in down-regulation of the cytotoxic potential of the specific CTLs. One analogue selectively triggered apoptosis as efficiently as the original epitope, subdividing the partial agonists into apoptosis-inducing and noninducing ligands. Analysis of early T cell activation events, induction of Ca2+ influx, and acid release did not reveal significant differences between the two types of analogue peptides. These results demonstrate that some partial agonists can dissociate the induction of CTL death from CTL activation. Peptides with such properties may serve as useful tools to study signal transduction pathways in CD8+ lymphocytes and as therapeutic agents modulating natural immune responses.

Interaction between the peripheral site residues of human butyrylcholinesterase, D70 and Y332, in binding and hydrolysis of substrates

Human butyrylcholinesterase displays substrate activation with positively charged butyrylthiocholine (BTC) as the substrate. Peripheral anionic site (PAS) residues D70 and Y332 appear to be involved in the initial binding of charged substrates and in activation control. To determine the contribution of PAS residues to binding and hydrolysis of quaternary substrates and activation control, the single mutants D70G/Y and Y332F/A/D and the double mutants Y332A/D70G and Y332D/D70Y were studied. Steady-state hydrolysis of the charged substrates, BTC and succinyldithiocholine, and the neutral ester o-nitrophenyl butyrate was measured. In addition, inhibition of wild-type and mutant enzymes by tetramethylammonium was investigated, at low concentrations of BTC. Single and double mutants of D70 and Y332 showed little or no substrate activation, suggesting that both residues were important for activation control. The effects of double mutations on D70 and Y332 were complex. Double-mutant cycle analysis provided evidence for interaction between these residues. The category of interaction (either synergistic, additive, partially additive or antagonistic) was found to depend on the nature of the substrate and on measured binding or kinetic parameters. This complexity reflects both the cross-talk between residues involved in the sequential formation of productive Michaelian complexes and the effect of peripheral site residues on catalysis. It is concluded that double mutations on the PAS induce a conformational change in the active site gorge of butyrylcholinesterase that can alter both substrate binding and enzyme acylation.

Polyol-induced activation by excess substrate of the D70G butyrylcholinesterase mutant

Wild-type human butyrylcholinesterase (BuChE) has a non-Michaelian behaviour showing substrate activation with butyrylthiocholine (BTC) as the substrate. The D70G mutant has a catalytic constant identical to that of the wild-type enzyme, but a 10-fold lower affinity for BTC compared to wild-type enzyme, and it does not exhibit activation by excess BTC under conventional conditions. In the present work it was found that addition of polyols or sugars changed the kinetic behaviour of the D70G mutant with BTC. In the presence of 40% sucrose, the D70G mutant enzyme displayed marked activation by excess substrate. Because D70 is hydrogen bonded to Y332, mutants of Y332 were studied. Mutant Y332F had a behaviour similar to that of wild-type BuChE, whereas mutants Y332A, Y332A/D70G and D70G had negligible substrate activation. The behavior of wild-type, Y332F, Y332A and Y332A/D70G did not change in the presence of high concentrations of sugar. Substrate activation has been explained by binding of a second substrate molecule in the peripheral site at D70. The D70G mutant should be incapable of substrate activation, if D70 were the only residue involved in substrate activation. The ability of the D70G mutant to display substrate activation by medium engineering suggests that other residues are involved in initial substrate binding and activation by excess substrate. Osmolyte-induced change in conformation and/or hydration status of Y332 and other solvent-exposed residues may account for the non-Michaelian behaviour of the D70G mutant.

The clonal composition of a peptide-specific oligoclonal CTL repertoire selected in response to persistent EBV infection is stable over time

The TCR repertoire of a peptide-specific HLA A11-restricted CTL response to persistent infection with EBV was followed for a period of 57 mo. Sequencing of TCR V alpha and V beta chains and alanine scanning mutagenesis analysis of 83 CTL clones isolated in five reactivation experiments demonstrated that this repertoire is composed of at least four distinct CTL clonotypes that are constantly reactivated from donor's blood and express structurally heterogeneous TCRs. Target cell recognition and CD8 blocking experiments indicate that the four clonotypes possess different avidity and TCR affinity for the specific Ag. This demonstrates that at least in some individuals a heterogeneous peptide-specific memory CTL repertoire selected by a persistent Ag can be remarkably stable in time and accommodate a range of TCR affinities and T cell avidities. Our results suggest that competition for the specific Ag may be not the major force driving the maintenance of memory CTLs and that the nature of the first antigenic challenge may largely determine the clonal composition of memory.

Phenotype-dependent differences in proteasome subunit composition and cleavage specificity in B cell lines

We have compared the subunit composition and enzymatic activity of purified 26S proteasomes from Burkitt's lymphoma (BL) cells and in vitro EBV-transformed lymphoblastoid cell lines (LCLs) of normal B cell origin. Low expression of the IFN-gamma-regulated beta low molecular mass polypeptide (Lmp)2, Lmp7, and MECL-1 was demonstrated in a panel of seven BL lines that express the germinal center cell phenotype of the original tumor. Coexpression of Lmp2 and Lmp7 with the constitutively expressed subunits delta and MB1 was demonstrated in the BL lines by immunoprecipitation and two-dimensional gel fractionation of the 20S proteasomes. Coexpression of these subunits correlated with reduced levels of chymotrypsin- and trypsin-like activities detected by the cleavage of fluorogenic substrates. Down-regulation of Lmp2 and Lmp7 and decreased chymotrypsin- and trypsin-like activities were also observed in purified proteasomes from a c-myc-transfected subline of the ER/EB2-5 LCL that has adopted a BL-like phenotype. A synthetic peptide analogue of the immunodominant epitope from the EBV nuclear Ag 4 (E4416-424Y) was cleaved by proteasomes from BLs and A1, while proteasomes from LCLs were inactive. Cleavage of the E4416-424Y peptide was not affected by treatment of the BL cells with IFN-gamma despite both significant up-regulation of Lmp2 and Lmp7 and reconstitution of chymotrypsin and trypsin-like activities against fluorogenic substrates to LCL-like levels. The results demonstrate that B cell lines representing different stages of B cell activation and differentiation express proteasomes with different subunit compositions and enzymatic activity. This may result in the generation of a distinct set of endogenous peptides and influence the immunogenicity of these cells.

Natural variants of the immunodominant HLA A11-restricted CTL epitope of the EBV nuclear antigen-4 are nonimmunogenic due to intracellular dissociation from MHC class I:peptide complexes

EBV isolates from human populations with a high frequency of HLA A11 evade recognition by CTLs specific for an immunodominant A11-restricted epitope derived from the EBV nuclear antigen 4 (EBNA-4). We have previously described four nonimmunogenic variants of this epitope carrying single amino acid substitutions in the anchor residues of the peptide. We have now investigated the antigenicity, A11 binding capacity, endoplasmic reticulum translocation, endogenous processing, and presentation of these variants. The nonimmunogenic peptides were either unable to bind to HLA A11 or formed complexes of significantly lower stability compared with the immunogenic epitope. The latter peptides were produced in relatively large amounts by endogenous processing of EBNA-4 and associated with A11 molecules almost as efficiently as the immunogenic epitope, but the complexes failed to accumulate at the cell surface. The defect was not reversed by incubation of lymphoblastoid cell lines carrying the variant EBV strains at 26 degrees C. CTL lysis of HLA A11 positive targets was achieved by expressing one of the nonimmunogenic peptides through a vaccinia recombinant. However, the amount of peptide required for CTL sensitization exceeded, by at least 30-fold, that required for recognition of the immunogenic epitope. Collectively, these results suggest that complexes containing the nonimmunogenic peptides are formed but are then destroyed intracellularly. Thus, a specialized sorting mechanism seems to contribute in shaping the repertoire of peptides presented to T lymphocytes.

Natural variants of the immunodominant HLA A11-restricted CTL epitope of the EBV nuclear antigen-4 are nonimmunogenic due to intracellular dissociation from MHC class I:peptide complexes

EBV isolates from human populations with a high frequency of HLA A11 evade recognition by CTLs specific for an immunodominant A11-restricted epitope derived from the EBV nuclear antigen 4 (EBNA-4). We have previously described four nonimmunogenic variants of this epitope carrying single amino acid substitutions in the anchor residues of the peptide. We have now investigated the antigenicity, A11 binding capacity, endoplasmic reticulum translocation, endogenous processing, and presentation of these variants. The nonimmunogenic peptides were either unable to bind to HLA A11 or formed complexes of significantly lower stability compared with the immunogenic epitope. The latter peptides were produced in relatively large amounts by endogenous processing of EBNA-4 and associated with A11 molecules almost as efficiently as the immunogenic epitope, but the complexes failed to accumulate at the cell surface. The defect was not reversed by incubation of lymphoblastoid cell lines carrying the variant EBV strains at 26 degrees C. CTL lysis of HLA A11 positive targets was achieved by expressing one of the nonimmunogenic peptides through a vaccinia recombinant. However, the amount of peptide required for CTL sensitization exceeded, by at least 30-fold, that required for recognition of the immunogenic epitope. Collectively, these results suggest that complexes containing the nonimmunogenic peptides are formed but are then destroyed intracellularly. Thus, a specialized sorting mechanism seems to contribute in shaping the repertoire of peptides presented to T lymphocytes.

Epitope-dependent selection of highly restricted or diverse T cell receptor repertoires in response to persistent infection by Epstein-Barr virus

The T cell receptor (TCR) repertoires of cytotoxic responses to the immunodominant and subdominant HLA A11-restricted epitopes in the Epstein-Barr virus (EBV) nuclear antigen-4 were investigated in four healthy virus carriers. The response to the subdominant epitope (EBNA4 399-408, designated AVF) was highly restricted with conserved Vbeta usage and identical length and amino acid motifs in the third complementarity-determining regions (CDR3), while a broad repertoire using different combinations of TCR-alpha/beta V and J segments and CDR3 regions was selected by the immunodominant epitope (EBNA4 416-424, designated IVT). Distinct patterns of interaction with the A11-peptide complex were revealed for each AVF- or IVT-specific TCR clonotype by alanine scanning mutagenesis analysis. Blocking of cytotoxic function by antibodies specific for the CD8 coreceptor indicated that, while AVF-specific TCRs are of high affinity, the oligoclonal response to the IVT epitope includes both low- and high-affinity TCRs. Thus, comparison of the memory response to two epitopes derived from the same viral antigen and presented through the same MHC class I allele suggests that immunodominance may correlate with the capacity to maintain a broad TCR repertoire.

Solvent exposed side chains of peptides bound to HLA A*1101 have similar effects on the reactivity of alloantibodies and specific TCR

Peptides can affect the recognition of MHC class I molecules by allospecific antibodies. Two explanations have been proposed for this phenomenon. The 'conformational change' hypothesis suggests that peptide binding affects the availability of serologic determinants in the class I alpha1 and alpha2 domains while the 'peptide-side-chain effect' predicts that solvent exposed residues in the peptide are part of the serologic epitope. We have tested these possibilities by examining the recognition of peptide loaded HLA A*1101 molecules expressed in transporters associated with antigen processing (TAP)-deficient cell lines by three A11-specific mAb, and by comparing the effect of peptide analogues on the recognition of A11 complexes containing peptide epitopes from the Epstein-Barr virus nuclear antigen EBNA4 by antibodies and cytotoxic T lymphocytes (CT). The AUF5.13 and HB164 antibodies showed selective recognition of A11 molecules bound to partially overlapping sets of peptides from viral or cellular origin. The peptide dependence of AUF5.13 was confirmed in reconstitution experiments where A11 molecules were refolded at the surface of TAP-deficient T2/A11 cells that had been cultured at 26 degrees C and treated at pH3. Molecular modelling and Ala scanning mutagenesis of the IVTDFSVIK (IVT) and AVFDRKSDAK (AVF) peptides demonstrated that solvent-exposed peptide side chains affect CTL recognition as well as antibody binding. Substitution of Phe-P5 or Ser-P6 of the IVT peptide with Arg or Lys inhibited AUF5.13 recognition while binding was induced by substitution of the Arg-P5 and Lys-P6 of the AVF peptide with Ala. The results suggest that some allospecific antibodies recognized the surface of MHC class I-peptide complexes in a fashion similar to the TCR. This may involve direct interaction with the peptide side chains as well as recognition of peptide-induced perturbations in the class I complex.

The life span of major histocompatibility complex-peptide complexes influences the efficiency of presentation and immunogenicity of two class I-restricted cytotoxic T lymphocyte epitopes in the Epstein-Barr virus nuclear antigen 4

We have investigated the reactivity to two human histocompatibility leukocyte antigen (HLA) A11-restricted cytotoxic T lymphocyte (CTL) epitopes derived from amino acids 416-424 (IVTDFSVIK, designated IVT) and 399-408 (AVFDRKSVAK, designated AVF) of the Epstein-Barr virus (EBV) nuclear antigen (EBNA) 4. A strong predominance of CTL clones specific for the IVT epitope was demonstrated in polyclonal cultures generated by stimulation of lymphocytes from the EBV-seropositive donor BK with the autologous B95.8 virus-transformed lymphoblastoid cell line (LCL). This was not due to intrinsic differences of CTL efficiency since clones specific for the two epitopes lysed equally well A11-positive phytohemagglutinin blasts and LCLs pulsed with the relevant synthetic peptide. Irrespective of the endogenous levels of EBNA4 expression, untreated LCLs were lysed more efficiently by the IVT-specific effectors, suggesting that a higher density of A11-IVT complexes is presented at the cell surface. In accordance, 10-50-fold higher amounts of IVT peptides were found in high-performance liquid chromatography fractions of acid extracts corresponding to an abundance of about 350-12,800 IVT and 8-760 AVF molecules per cell. Peptide-mediated competition of CTL sensitization, transport assays in streptolysin-O permeabilized cells, and induction of A11 expression in the transporter associated with antigen presentation-deficient T2/A11 transfectant demonstrated that the IVT and AVF peptides bind with similar affinities to A11, are translocated with equal efficiency to the endoplasmic reticulum, and form complexes of comparable stability over a wide range of temperature and pH conditions. A rapid surface turnover of A11 molecules containing the AVF peptide was demonstrated in metabolically active T2/A11 cells corresponding to a half-life of approximately 3.5 as compared to approximately 2 h for molecules induced at 26 degrees C in the absence of exogenous peptides and >12 h for IVT-containing complexes. This difference in persistence is likely to determine the representation of individual class I-restricted CTL epitopes within the cell surface pool of molecules, and may be an important factor contributing to their immunogenicity.

Inhibition of antigen processing by the internal repeat region of the Epstein-Barr virus nuclear antigen-1

The Epstein-Barr virus (EBV)-encoded nuclear antigen (EBNA1) is expressed in latently EBV-infected B lymphocytes that persist for life in healthy virus carriers, and is the only viral protein regularly detected in all malignancies associated with EBV. Major histocompatibility complex (MHC) class I-restricted, EBNA1-specific cytotoxic T lymphocyte (CTL) responses have not been demonstrated. Using recombinant vaccinia viruses encoding chimaeric proteins containing an immunodominant human leukocyte antigen A11-restricted CTL epitope, amino acids 416-424 of the EBNA4 protein, inserted within the intact EBNA1, or within an EBNA1 deletion mutant devoid of the internal Gly-Ala repetitive sequence, we demonstrate that the Gly-Ala repeats generate a cis-acting inhibitory signal that interferes with antigen processing and MHC class I-restricted presentation. Insertion of the Gly-Ala repeats downstream of the 416-424 epitope inhibited CTL recognition of a chimaeric EBNA4 protein. The results highlight a previously unknown mechanism of viral escape from CTL surveillance, and support the view that the resistance of cells expressing EBNA1 to rejection mediated by CTL is a critical requirement for EBV persistence and pathogenesis.

T cell responses and virus evolution: loss of HLA A11-restricted CTL epitopes in Epstein-Barr virus isolates from highly A11-positive populations by selective mutation of anchor residues

Epstein-Barr virus (EBV) is a B lymphotropic herpesvirus of humans that elicits strong HLA class I-restricted cytotoxic T lymphocyte (CTL) responses. An influence of such responses on virus evolution was first suggested by our finding that EBV isolates from the highly HLA A11-positive Papua New Guinea (PNG) population carried a lys-thr mutation at residue 424 of the nuclear antigen EBV-encoded nuclear antigen (EBNA4) that destroyed the immunodominant target epitope for A11-restricted CTL recognition. Here we turn to a much larger population, Southern Chinese, where the A11 allele is again present in over 50% of the individuals. Each of 23 EBV isolates analyzed from this population were also mutated in the EBNA4 416-424 epitope, the mutations selectively involving one of the two anchor residues in positions 2 (417 val-leu) or 9 (424 lys-asp, -arg or -thr) that are critical for A11-peptide interaction. The majority of the Chinese isolates and all 10 PNG isolates also carried mutations affecting positions 1 and 2 of the next most immunodominant A11-restricted epitope, EBNA4 residues 399-408. These changes clearly affected antigenicity since A11-positive lymphoblastoid cell lines (LCLs) carrying these mutant EBV strains were not recognized by A11-restricted CTLs raised against the prototype B95.8 virus. Furthermore, Chinese donors naturally infected with these mutant viruses did not mount detectable A11-restricted CTL responses on in vitro stimulation with autologous LCL cells carrying either the B95.8 or their endogenous EBV strain. In two different highly A11-positive populations, therefore, immune pressure appears to have selected for resident EBV strains lacking immunodominant A11-restricted CTL epitopes.