Identification of human antitumor cytotoxic T lymphocytes epitopes of recoverin, a cancer-associated retinopathy antigen, possibly related with a better prognosis in a paraneoplastic syndrome

Cancer-associated retinopathy (CAR) is a rare paraneoplastic syndrome, and the recoverin-specific autoantibody is suggested to contribute to the pathogenesis of retinopathy, including apoptosis of retinal cells. Because it is known that CAR(+) cancer patients have a preferable prognosis, we hypothesized that aberrantly expressed recoverin in cancer cells can become a target of cytotoxic T lymphocytes (CTL). Here we tested nine recoverin-derived HLA-A24-binding peptides for their capacity to elicit antitumor CTL. We observed recoverin-specific CTL responses in two HLA-A24(+) CAR(+) cancer patients. In addition, the CTL responses were obtained from three of ten CAR(-) cancer patients and two of six healthy individuals. The CTL precursor frequency of CAR(+) cancer patients and that of CAR(-) cancer patients was higher than that of healthy individuals. Of nine recoverin peptides, R49 (QFQSIYAKF), R49.2 (QFQSIYAKFF), and R64 (AYAQHVFRSF) were discovered to induce the peptide-specific CTL. Taken together, our present data suggest that peripheral activation of recoverin-specific antitumor CTL is likely to contribute to the preferable prognosis of CAR(+) cancer patients. Moreover, in cases other than CAR(+) cancer patients, recoverin may offer the opportunity to design epitope-based immunotherapeutic approaches for treating HLA-A24(+) cancer patients with a recoverin-expressing tumor.     

Alpha-difluoromethylornithine, an inhibitor of polyamine biosynthesis, augments cyclosporin A inhibition of cytolytic T lymphocyte induction.

The objective of the present investigation was to examine the effect of alpha-difluoromethylornithine (DFMO), an irreversible inhibitor of ornithine decarboxylase, in combination with the immunosuppressant cyclosporin A (CsA) on cytolytic T lymphocytes (CTL) induction in vitro and in vivo. Treatment with DFMO (0.2 mg/ml) or CsA (10 ng/ml) alone in vitro inhibited mitogen-induced CTL generation by 56% and 51%, respectively. Similarly, DFMO or CsA treatment alone inhibited alloantigen-induced CTL generation by 50% and 62%, respectively. Combination treatment with DFMO and CsA reduced mitogen- and alloantigen-mediated CTL induction by 79% and 90%, respectively. In vivo, DFMO treatment alone did not inhibit alloantigen induced CTL generation. However, DFMO potentiated the immunosuppressive effects of CsA in vivo on CTL induction. DFMO treatment reduced activated lymphocyte putrescine and spermidine levels by 81% and 91%, respectively. Combination treatment with DFMO and CsA, at concentrations that effectively inhibited CTL induction, did not further deplete polyamine levels beyond those levels observed with DFMO alone. CsA treatment with or without DFMO did reduce detectable levels of interleukin 2 (IL-2) activity. DFMO treatment alone did not impair IL-2 production. These results indicate that CsA and DFMO may inhibit different processes required for CTL induction, IL-2 production and polyamine biosynthesis. Therefore, inhibitors of polyamine biosynthesis may be useful in lowering the doses of CsA required to inhibit CTL induction.     

Vaccination with recoverin,a cancer-associated retinopathy antigen,induces autoimmune retinal dysfunction and tumor cell regression in mice

Recoverin (Rec)-specific CTL present in peripheral blood recognize Rec-expressing tumor cells of patients with cancer-associated retinopathy (CAR), a paraneoplastic retinopathy syndrome. To evaluate the effects of Rec on retina and cancer cells, we generated an experimental mouse model, tested the induction of Rec-specific anti-tumor CTL, and analyzed retinal function using electroretinogram (ERG) in these animals. We observed a Rec-specific CTL response in BALB/c mice and significant growth inhibition of Rec-expressing syngeneic MethA fibrosarcoma cells in vivo. R64 (AYAQHVFRSF) peptide, derived from Rec that induces anti-tumor CTL in humans, produced anti-tumor effects in BALB/c mice. Furthermore, elevated anti-Rec antibodies correlated with decreased ERG amplitudes in Rec, Rec-expressing tumor and R64-treated mice. These data suggest that Rec contains amino acid sequences which cause retinal dysfunction, but they also induce anti-tumor CTL and tumor regression. These observations describe initial characterization of the CAR mouse model, a necessary step in developing new insight into immunological mechanisms of paraneoplastic syndromes and tumor immunity for potential immunotherapeutic approaches to cancer.     

HIV-1-specific cytolytic T-lymphocyte activity correlates with lower viral load, higher CD4 count, and CD8+CD38-DR- phenotype: comparison of statistical methods for measurement.

OBJECTIVES: The objective of this study was to use novel statistical methods to determine the correlation between HIV-1-specific cytolytic T-lymphocyte (CTL) activity and HIV-1 plasma viral load, in a blinded study of HIV-infected patients at various stages of clinical disease. METHODS: Peripheral blood mononuclear cells (PBMC) were collected and stored at enrollment and 2 weeks later, from 15 HIV-infected individuals who were receiving stable antiretroviral therapy for the previous 6 weeks and during the study period. HIV-1-specific CTL activity was measured using an antigen-specific PBMC in vitro stimulation method. Measurements of plasma viral load, as well as CD4+ and CD8+ T lymphocytes expressing T-cell activation markers (DR and CD38) were also performed at each time point. CTL activity was quantified using three separate statistical methods: area under the net HIV-specific lysis curve (AUC), lytic units (LU20), and linear regression (LR) of net HIV-specific lysis. RESULTS: HIV-1 nef-, pol- and gag-specific CTL activity (AUC method) was significantly higher in subjects with a plasma viral load < or = 30,000 RNA copies/ml, than in those with viral load >30,000 RNA copies/ml. When plasma viral load was analyzed as a continuous variable, there was a strong correlation between higher CTL activity and lower viral load for nef (r2 = .77; p < .001), pol (r2 = .63; p < .001) and gag (r2 = 0.75; p < .001) targets by the AUC, but not for the LU20 analysis. Using the LR analysis, which is less dependent on in vitro PBMC growth than the AUC analysis, an independent association was demonstrated between nef- and gag-specific CTL activity and lower viral load. Measurement of CTL activity was also significantly correlated with a higher percentage of circulating CD8+DR-CD38- T lymphocytes. CONCLUSIONS: In this blinded study using an in vitro stimulation of frozen PBMC, higher HIV-1 nef-, pol-, and gag-specific CTL activity correlated with lower plasma viral load, particularly in patients with a CD4 count <500 cells/mm3. Two new statistical methods for estimating CTL activity, AUC and LR analyses, were superior to the standard lytic unit (LU20) method for demonstrating this correlation. These data also demonstrated that higher circulating CD8+ T lymphocytes with a DR-CD38-phenotype, correlate with a lower plasma viral and load and higher HIV-specific CTL activity. This suggests that lymphocytes with this double-negative phenotype may include circulating HIV-specific CD8+ CTL.     

Immunization with glycosylated Kb-binding peptides generates carbohydrate-specific,unrestricted cytotoxic T cells

Cytotoxic T cells (CTL) recognize target proteins as short peptides presented by major histocompatibility complex (MHC) class I restriction elements. However, there is also evidence for peptide-independent T cell receptor (TCR) recognition of target proteins and non-protein structures. How such T cell responses are generated is presently unclear. We generated carbohydrate (CHO)-specific, MHC-unrestricted CTL responses by coupling di- and trisaccharides to K^b- or D^b-binding peptides for direct immunization in mice. Four peptides and three CHO have been analyzed with the CHO either in terminal or central positions on the carrier peptide. With two of these glycopeptides, with galabiose (Galα1-4Gal; Gal₂) bound to a homocysteine (via an ethylene spacer arm) in position 4 or 6 in a vesicular stomatitis virus nucleoprotein-derived peptide (RGYVYQGL binding to K^b), CTL were generated which preferentially killed target cells treated with glycopeptide compared to those treated with the core peptide. Polyclonal CTL were also found to kill target cells expressing the same Gal₂ epitope in a glycolipid. By fractionation of CTL, preliminary data indicate that glycopeptide-specific K^b-restricted CTL and unrestricted CHO-specific CTL belong to different T cell populations with regard to TCR expression. The results demonstrate that hapten-specific unrestricted CTL responses can be generated with MHC class I-binding carrier peptides. Different models that might explain the generation of such responses are discussed.     

Modulation of the Functions of Dengue Virus-Specific Human CD8+ Cytotoxic T Cell Clone by IL-2, IL-7 and IFNγ

Lymphokines play an important role in immune responses to viruses by modulating functions of T lymphocytes. In the present study, we examined the effects of interleukin-2 (IL-2), interleukin-4 (IL-4), interleukin-6 (IL-6), interleukin-7 (IL-7), and interferon gamma (IFNγ) on proliferation, cytotoxic activity and lymphokine production of a dengue virus-specific CD8⁺ human cytotoxic T lymphocyte (CTL) clone. IL-2 and IL-7 induced proliferation of the CD8+ CTL clone in the presence or absence of specific antigen, while IFNγ suppressed proliferation of the clone. IL-7 and IFNγ augmented dengue virus-specific cytotoxic activity without inducing non-specific cytotoxic activity, and IL-2 induced non-specific cytotoxic activity. IL-2 induced IFNγ production by the CD8+ CTL clone. IL-4 and IL-6 did not modulate the functions of the CD8+ CTL clone in these experimental conditions.

These results suggest that functions of dengue virus-specific CD8+ CTL are modulated by IL-2, IL-7 and IFNγ, and that IL-7 is a lymphokine useful to induce growth and to maintain specific cytotoxic activity of CD8+ CTL clones in vitro.     

Activated, HTLV-1-specific cytotoxic T-lymphocytes are found in healthy seropositives as well as in patients with tropical spastic paraparesis.

In human T cell lymphoma/leukemia virus (HTLV-1)-infected people with tropical spastic paraparesis (TSP), there are activated HTLV-1-specific cytotoxic T lymphocytes (CTL) in the circulation and lymphocytic infiltrates in spinal cord lesions that are rich in CD8+ T cells. These observations suggest a role for virus-specific CTL in the pathogenesis of TSP. We have examined the anti-HTLV-1 cytotoxic activity of freshly isolated CD8+ T cells from peripheral blood lymphocytes of eight subjects seropositive for HTLV-1. Four of five subjects with TSP had circulating activated anti-Tax CTL. However, two of three seropositive subjects without TSP also had activated anti-Tax CTL. These observations show that such activated CTL are not confined to patients with TSP and raise some uncertainty about their significance in the pathogenesis of the disease. In cultures of CD8+ T cells from two TSP subjects, we detected CTL with other HTLV-1 specificities, without exogenous antigenic stimulation. A CTL epitope in the middle region of Tax and one in the C terminus of Pol have been mapped at the peptide level and the HLA Class 1 molecules restricting their recognition have been defined.     

HLA-B*0702 transgenic,H-2KbDb double-knockout mice: phenotypical and functional characterization in response to influenza virus

HLA-B*0702 transgenic mice (expressing a chimeric heavy chain with a murine alpha 3 domain: HLA-B7(m alpha 3)) in which the H-2K(b) and H-2D(b) class I-a (Cl I-a(-/-)) genes have been inactivated were compared with H-2K(b)D(b) Cl I-a(+/+) positive controls. Expression of the HLA-B7(m alpha 3) molecules resulted in a 3- to 4-fold increase in peripheral CD8(+) T lymphocyte numbers compared to H-2 Cl I-a(-/-) knockout mice. These cells show a diversified TCR repertoire. Following influenza infection, a significant improvement in HLA-B0702-restricted cytotoxic T lymphocyte (CTL) responses was observed in HLA-B7(m alpha 3), H-2 Cl I-a(-/-) compared to HLA-B7(m alpha 3), H-2 Cl I-a(+/+) mice. The CTL response of infected HLA-B7(m alpha 3), H-2 Cl I-a(-/-) mice was directed against the nucleoprotein (NP) 418-426 epitope in which mutations have accumulated. Whereas all NP 418-426 variant peptides induced a CTL response, cross-reactivity to the variants was affected. These NP mutations could have been selected over time in humans for the virus to escape HLA-B0702-restricted CTL responses since a similar response was seen in humans with, as in mice, altered cross-recognition of the NP 418-426 variants. These animals may prove a suitable model to study HLA-B0702-restricted CTL responses.     

CD8 memory, immunodominance, and antigenic escape

Previous theoretical work has suggested that efficient virus control or clearance requires antigen-independent persistence of memory cytotoxic T lymphocyte precursors (CTLp), and that failure to generate such memory CTLp can result in persistent infection and eventual loss of virus control. Here we use mathematical models to investigate the relationship between virus control, the clonal composition of the CTL response and the chance of the virus to evolve antigenic escape. In the presence of efficient memory CTLp, virus is controlled at very low levels by a broad CTL response directed against multiple epitopes. In this case, antigenic escape of the virus population is expected to take a very long time. On the other hand, if the CTL response is short lived in the absence of antigen, virus replicates at higher levels and is only opposed by a narrow CTL response, characterized by an immunodominant CTL clone. In this case, antigenic escape is expected to evolve in a short period of time, resulting in progressive loss of virus control. We discuss our findings in relation to data from HIV-1-infected patients.     

Functionally distinct helper T-cell epitopes of HCV and their role in modulation of NS3-specific,CD8+/tetramer positive CTL

Hepatitis C virus specific (HCV-specific) CD8+ cytotoxic T cells play a critical role in viral clearance. Low HCV-specific cytotoxic T lymphocyte (CTL) responses in chronic HCV infection may favor the persistence of virus, whereas stimulation and expansion of HCV-specific CTL activity may assist elimination of HCV infection. Helper T cells control the intensity of CD8+ T-cell responses and helper T-cell responses are known to be compromised in chronic carriers of HCV. In this study, we wanted to ascertain if strengthening the Th response could increase the intensity of CTL activity against HCV target antigens. We selected a synthetic CTL peptide NS3(1073-1081)), two Th1 epitopes, peptide NS3(358-375) and NS5B(155-172), and one Th2 epitope, peptide NS3(505-521). By using the four peptides alone or in combinations, we stimulated peripheral blood cells isolated from a chronic hepatitis C patient in vitro and then analyzed CD8 T cells specific for the NS3(1073-1081) CTL epitope in A2 tetramer staining and cytotoxicity assays. The results demonstrated that CTL responses could be augmented by helper T-cell epitopes NS3(358-375) and NS5B(155-172). Th2 epitope NS3(505-521) inhibited augmentation of CTL activity by Th1 epitopes. This inhibitory effect could be overcome by combining the two Th1 epitopes NS3(358-375) and NS5B(155-172) together with NS3(505-521). Under such conditions, CTL frequency was restored, but cytotoxic activity remained low suggesting that the help provided under these cultures was sufficient to drive proliferation of CTL, but not sufficient to drive differentiation into mature killer cells. These results may provide some insights into compromised CTL activity in HCV viral persistence.     

Independent roles of perforin, granzymes, and Fas in the control of Friend retrovirus infection

Cytotoxic T-cells (CTL) play a central role in the recovery of mammalian hosts from retroviral infections. However, the molecular pathways that mediate the antiretroviral activity of CTL are still elusive. Here we explore the protective role of the two main cytolytic pathways of CTL, that is, granule exocytosis and Fas/Fas ligand (FasL), in acute and persistent Friend retrovirus (FV) infection of mice. For this purpose, we have used mutant mouse strains with targeted gene defects in one or more components of the two cytolytic pathways including perforin, granzyme A, granzyme B, Fas, and FasL. The important function of CTL in resistance of C57BL/6 (B6) mice to FV is emphasized by the finding that depletion of CD8+ T-cells prior to virus infection resulted in severe splenomegaly and high viral loads in blood and spleen tissue. Analysis of primary FV infection in knockout mice revealed that acute infection was readily controlled in the absence of functional Fas. Most notably in the presence of Fas/FasL each of the three effector molecules of the exocytosis pathway (i.e., perforin, granzyme A, and granzyme B) was capable on its own to mediate suppression of virus replication and protection from leukemia. However, triple knockout mice lacking perforin and the two granzymes were fully susceptible to FV-induced leukemia. In contrast to acute infection the Fas/FasL pathway was mandatory for effective control of FV replication during persistent infection. These findings suggest novel pathways of CTL-mediated viral defense and contribute towards a better understanding of the molecular mechanisms of CTL activity in retroviral infections.     

Virus-lymphocyte interactions. IV. Molecular characterization of LCMV Armstrong (CTL+) small genomic segment and that of its variant, Clone 13 (CTL-)

Immunocompetent adult mice mount a vigorous cytotoxic T lymphocyte (CTL) response against the Armstrong (ARM) 53b strain of LCMV after primary inoculation. In contrast, the Clone 13 variant of ARM 53b, originally isolated from the spleen of a persistently infected mouse, suppresses LCMV-specific CTL responses (R. Ahmed et al. (1984) J. Exp Med 60, 521). The induction and generation of CTL maps to the short (S) RNA segment and not the long (L) RNA segment of LCMV (Y. Riviere et al. (1986) J. Immunol. 136, 304). The CTL recognition epitope, expressed in virus-infected target cells, also maps to the S segment of the LCMV ARM genome, and is structurally and functionally intact in Clone 13-infected target cells. Here we report the S RNA sequences of both ARM 53b and its variant Clone 13. Comparison reveals a single amino acid difference. However, sequence divergence at this position also occurs among other strains of LCMV (Pasteur, Traub, WE) which do elicit CTL responses. Hence, (1) the amino acid difference is unrelated to the phenotypic divergence of Clone 13, (2) suppression of the CTL response by Clone 13 is not linked to the CTL recognition epitope, and (3) the structure or function responsible for CTL immunosuppression by Clone 13 most likely maps to the L RNA segment. Further, the availability of the complete S RNA sequence for LCMV ARM and ARM Clone 13 variant allows a detailed comparison with WE (V. Romanowski et al. (1985) Virus Res. 3, 110-114), the only other LCMV S RNA so far sequenced.     

In vivo rapid reduction of alloantigen-activated CD8+ mature cytotoxic T cells by inhibitors of acidification of intracellular organelles, prodigiosin 25-C and concanamycin B

Prodigiosin (PrG) 25-C and concanamycin B (CMB) are immunosuppressants that specifically inhibit the induction of cytotoxic T cells (CTL) without affecting the function of B cells and helper T cells in vivo. Both compounds inhibit acidification of intracellular organelles and induce destruction of cytotoxic granules and degradation of perforin in vitro. Here we show that a single intraperitoneal (i.p.) injection of PrG 25-C, and of CMB, into mice eliminates cytotoxic activity 7 days after alloantigen stimulation (when mature CTL activity has been detected in control mice), with minimal effect on the alloantigen-specific antibody titre in serum. FK506 did not suppress the cytotoxic activity with this administration schedule. Suppression was accompanied by a decrease in the CD8+ population and in perforin expression of spleen cells induced by alloantigen stimulation. The suppression of CTL activity and decrease in CD8+ cell number was detected as early as 7 hr after the injection of compounds. These results suggest that inhibitors of acidification of intracellular organelles suppress CTL activity in vivo by reducing the number of mature CD8+ CTL.     

Differential expression of the ASGM1 antigen on anti-reovirus and alloreactive cytotoxic T lymphocytes (CTL)

Anti-reovirus cytotoxic effectors were found to be: (i) H-2 restricted; (ii) virus specific; (iii) non-lytic (in 4 h) for natural killer (NK)-sensitive YAC-1 cells; and (iv) positive for the Thy-1 and Lyt-2 lymphocyte markers. Thus, anti-reovirus cytotoxic effectors have the functional and phenotype characteristics of cytotoxic T lymphocyte (CTL). A significant fraction of anti-viral CTL, as well as alloreactive CTL, were also found to be positive for the asialo GM1 (ASGM1) cell surface antigen, generally considered to be a NK cell marker. ASGM1 expression on these CTL, as determined by sensitivity to antibody plus complement (C), appeared to be highly variable and dependent on two factors-the nature of the antigenic stimulus (viral vs. alloantigen), and the mouse strain from which the CTL originated. Thus, ASGM1 antigen expression on CTL appears to be regulated and may be under the control of lymphokines, development differentiation signals and/or other strain-dependent genetic factors.     

Antigen-specific impairment of adoptive T-cell therapy against cancer: players,mechanisms, solutions and a hypothesis

Adoptive cell therapy (ACT) destroys tumors with infused cytotoxic T lymphocytes (CTLs). Although successful in some settings, ACT is compromised due to impaired survival or functional inactivation of the CTL. To better understand the mechanisms involved, we have exploited a mouse model of leukemia expressing ovalbumin as a tumor neoantigen to address these questions: (i) Is CTL impairment during ACT antigen specific? (ii) If yes, which are the antigen-presenting cells responsible? (iii) Can this information assist the development of complementary therapies to improve ACT? Our results indicate that the target (tumor) cells, not cross-presenting cells, are the main culprits of antigen-specific CTL inactivation. We find that the affinity/avidity of the CTL-tumor cell interaction has little influence on ACT outcomes, while tumor density is a major determinant. Reduction of tumor burden with mild non-lymphoablative and non-inflammatory chemotherapy can dramatically improve the efficacy of ACT and may minimize side-effects. We propose a general mechanism for the inactivation of anti-self CTL in the same tissues where the activity of anti-foreign CTL is preserved, based on the density of target cells. This mechanism, which we tentatively call stunning, may have evolved to protect infected sites from self-destruction and is exploited by tumors to inactivate CTL.     

Anthrax Toxin as a Molecular Tool for Stimulation of Cytotoxic T Lymphocytes: Disulfide-Linked Epitopes, Multiple Injections, and Role of CD4+ Cells

We have previously demonstrated that anthrax toxin-derived proteins, protective antigen (PA) and the amino-terminal portion of lethal factor (LFn), can be used in combination to deliver heterologous molecules to the cytosol of mammalian cells. In this study we examined the ability of an LFn-peptide disulfide-linked heterodimer to prime cytotoxic T lymphocytes (CTL) in the presence of PA. A mutant of LFn that contains a carboxy-terminal reactive cysteine was generated. This form of LFn could be oxidized with a synthetic cysteine containing peptide to form a heterodimer of the protein and peptide. Mice injected with the heterodimer plus PA mounted a peptide-specific CTL response, indicating that this molecule functioned similarly to the genetically fused forms used previously. We also report the results of an analysis of two aspects of this system important for the development of experimental vaccines. First, CD4 knockout mice were unable to generate a CTL response when treated with PA plus an LFn-epitope fusion protein, suggesting that CD4⁺ helper responses are essential for stimulating specific CTL with the PA-LFn system. Second, we now show that primary injection with this system does not generate any detectable antibody response to the vaccine components and that prior immunization has no effect on priming a CTL response to an unrelated epitope upon subsequent injection.     

Direct estimation of the frequency of human cytotoxic T lymphocytes and their precursors following in vitro allosensitization

Cell mediated lympholysis (CML) has been proposed as an in vitro model of the rejection process that results from transplantation of allogeneic tissue. To date, the absolute frequencies of cytotoxic T lymphocytes (CTL) and their precursors (CTL.P) have not been directly estimated in man because of technical difficulties. Through optimizing the conditions for radiometric detection of 51Cr release and the attendant improvement in CML sensitivity, direct CTL frequency estimates have been determined in peripheral blood (PBL), spleen (SPL), and lymph nodes (LNC) after in vitro allostimulation using unrelated human cells and limiting dilution assays. The mean frequency of CTL generated from PBL is 1 in 826 cells (0.121% +/- 0.101%) which, from preliminary experiments, is significantly greater than that generated from either LNC or SPL (p less than 0.05). With restimulation of primed cells on day 10, the frequency of CTL generated from PBL was increased 400%. The CTL.P frequency (0.0064% +/- 0.0050%) was approximately 5% of the corresponding CTL frequency. The CTL.P frequencies were found to be minimal estimates as both accessory "filler" cells and T cell growth factors increased the level of detection of CTL.P an average of threefold. The limiting cell dilution assay as detailed in this report should be a powerful tool for defining the cellular requirements and related factors necessary for optimal induction of a CTL response and should provide the means for determination of the immunogenetic requirements and the allospecificity of human cytotoxic lymphocytes.     

Alloreactive Cytotoxic T-Cell Function, Peptide Nonspecific

The recognition requirements necessary for murine alloreactive cytotoxic T-cells to carry out their effector function has been investigated using target cells that express a unique class I major histocompatibility complex (MHC)-peptide pair. The human cell line T2 and the murine cell line RMA-S are defective in peptide transport components needed to effectively express stable MHC class I molecules at the cell surface. When T2 cells were infected with a vaccinia virus that encoded the Kd gene and provided with a Kd-motif peptide from the nucleoprotein of influenza virus (NPP), these cells could be lysed by polyclonal allo Kd-reactive cytotoxic T-lymphocytes (CTL). Similar results were obtained with the murine RMA-S-Kd cell line, transfected with cDNA able to express some 'empty' Kd that is heat-labile. Adding another Kd-motif peptide from influenza virus haemagglutinin (HAP) stabilized the surface expression of Kd and allowed the RMA-S-Kd cells to be lysed before or after heat shock. At 27 degrees C anti-Kd alloreactive CTL-lysed target cells in the presence and absence of HAP peptide. Alloreactive CTL appear to have a more stringent requirement for a high density of MHC class I on cell surfaces relative to peptide-specific MHC-restricted CTL. We conclude that while Kd-restricted CTL activity is strictly peptide-specific, anti-Kd-specific alloreactivity is MHC allele-specific, but peptide-nonspecific. This conclusion is at odds with the Standard Model of T-cell receptor (TCR) function, but consistent with the predictions of a Competing Model of TCR function.     

Cytotoxic T lymphocyte escape variants, induced mutations, and synthetic peptides define a dominant H-2Kb-restricted determinant in simian virus 40 tumor antigen

Immunization of C57BL/6 mice with syngeneic cells transformed by simian virus 40 large T antigen (SV40 T ag) induces the generation of T antigen-specific cytotoxic T lymphocytes (CTL) which are restricted by the major histocompatibility class I antigens H-2Db and H-2Kb. Previous studies have shown that the H-2Db-restricted CTL response is directed to at least three distinct epitopes (I, II/III, and V) in the SV40 T antigen which have been precisely mapped using deletion mutagenesis and overlapping synthetic peptides. Although in vivo the CTL response to SV40 T antigen is dominated by the H-2Kb class I antigen, the precise location of the H-2Kb-restricted epitope(s) was not known, and whether there was multiplicity of H-2Kb-restricted epitopes remained unclear. In this study, we have defined the minimal recognition epitope for the SV40-specific H-2Kb-restricted CTL clone Y-4 as T antigen residues 404-411 by using T antigen deletion and point mutants and synthetic peptides. DNA sequence analysis of the region encoding residues 404-411 from the T antigens expressed in three independently isolated CTL clone Y-4 escape variants identified inactivating mutations capable of abrogating CTL recognition. Estimation of CTL precursor (CTLp) frequencies by limiting dilution analysis revealed that CTLp specific for epitope IV represent a large percentage of the total CTL response elicited by the intact T antigen in H-2b mice. Immunization of B6 mice with cells expressing a T antigen derivative deleted of residues 404-411 revealed that site IV represents the only immunodominant H-2Kb-restricted epitope within T antigen.