BioBreeding/Worcester (BB/Wor) rats are deficient in the generation of functional cytotoxic T cells

The BioBreeding/Worcester (BB/Wor) rat provides a good model of spontaneous autoimmune diabetes. There are several sublines of the BB/Wor rat. The diabetes prone (DP) sublines develop diabetes at a frequency of 50 to 80% from 60 to 120 days of age. The DP rats are lymphopenic, have a severe deficit in phenotypic OX 19+ OX 8+ cytotoxic T cells (Tc), and lack RT 6.1 T cells. These rats have a relative increase in OX 19- OX 8+ natural killer (NK) cells and in NK activity as compared with the diabetes resistant (DR) sublines. The DR sublines have a normal complement of phenotypic Tc and RT 6.1 T cells, fewer NK cells, and lower NK activity than the DP rat. The ability to elicit functional Tc in the BB/Wor rat has not been well studied. In these experiments, by using a model of lymphocytic choriomeningitis virus (LCMV) infection in DP and DR rats, we have studied the functional activity of Tc in these lines. Seven days after infection with LCMV, DR rats develop lymphocytes which are cytotoxic for LCMV-infected syngeneic fibroblasts. These cytotoxic lymphocytes are phenotypic Tc (OX 19+ OX 8+), and do not kill Pichinde virus-infected syngeneic fibroblasts or LCMV-infected allogeneic fibroblasts. This cytotoxic activity is accompanied by an increase in phenotypic Tc from 17 to 33%. DP rats produced neither functional nor phenotypic Tc. These studies confirm that NK cells are the predominant cytotoxic lymphocyte in the BB/Wor rat and suggest that these rats may not utilize a Tc mechanism in islet destruction or another immunologic process such as graft rejection.     

Deficiency of phenotypic cytotoxic-suppressor T lymphocytes in the BB/W rat

The BB/W rat is currently the best model of type I (insulin dependent diabetes). Even though this rat develops an autoimmune disease, they are immune deficient. In this study we have demonstrated the almost complete absence of the OX 8+, OX 19+ T cytotoxic/suppressor population in diabetes prone and acute diabetic rats. This population is present in the diabetes resistant W line. The diabetes prone and acute diabetic rats have a relative increase in OX 8+, OX 19- natural killer (NK) cells. Our data suggests that virtually all OX 8+ cells in diabetes prone and acute diabetic animals are phenotypic NK cells.     

Abrogation of diabetes in BB rats by acute virus infection. Association of viral-lymphocyte interactions

The BB rat spontaneously develops an insulin-dependent diabetes mellitus (IDDM) that closely resembles this disease in man. The pathogenesis involves autoimmune destruction of pancreatic beta-cells. In the present study, inoculation of diabetes-prone BB rats at 30 days of age with a lymphotropic variant of lymphocytic choriomeningitis virus significantly reduced the incidence of diabetes. Such virus-inoculated, diabetes-free rats had normal levels of pancreatic insulin and little or no mononuclear cell infiltration in the islets. Virus was recovered from lymphocytes by cocultivation with permissive cells. In contrast, virus was not detected in a wide variety of organs, indicating that infection in BB rats was primarily lymphotropic. PBL analyzed by FACS and monoclonal markers showed a marked reduction of pan-T. Th, and T suppressor/cytotoxic lymphocyte subsets restricted to 4 and 7 days after infection when compared with numbers of lymphocytes in uninoculated diabetes-prone rats. To prevent IDDM, replicating virus was required, because the expected incidence of IDDM in diabetes prone rats inoculated with UV-inactivated virus was equivalent to that of untreated animals. These results suggest that a virus can suppress the autoimmune response that would otherwise have caused IDDM and may be useful as a probe in dissecting the molecular basis of this autoimmune disorder.     

Natural killer cell number and function in the spontaneously diabetic BB/W rat

The BB/W rat provides a good model of spontaneous autoimmune diabetes. Diabetes-prone (DP) rats have a virtual lack of OX 8+ OX 19+ T cytotoxic/suppressor cells in peripheral blood lymphocytes (PBL) and spleen, suggesting that the OX 8+ OX 9- natural killer (NK) cells are the predominant cytotoxic cell in this animal. In this study, we have shown that rat NK cells belong to the OX 8+ OX 19- asialo GM1 bright population, and that rat NK cell function may be depleted in vivo by administration of OX 8 antibody. Furthermore, evidence is provided to indicate that NK cell number and activity are enhanced on a per cell basis in DP rats as compared to the diabetes-resistant W line rat. DP rats had about threefold more NK cells than did W-line rats. The cytotoxic activity mediated by spleen and PBL against the YAC-1 target generally correlated with the relative number of cells having the OX 8+ OX 19- phenotype. DP lymphocytes mediated low levels of cytolytic activity against the relatively resistant NK target cell K562. To more directly compare the activity of W-line and DP NK cells, spleen NK cells were isolated by flow sorting of the OX 8+ OX 19- population. At a 5:1 E:T ratio, DP OX 8+ OX 19- cells elicited 21% +/- 3 specific lysis and W-line cells elicited 7% +/- 2 specific lysis. To determine whether the elevated levels of NK cells and NK cell activity in DP rats were a consequence of NK cell proliferation, spleen cells were size-separated by centrifugal elutriation. The NK cell activity was predominantly mediated by small to medium-size lymphocytes and not blast-size enriched populations. Moreover, when the DNA content of splenic OX 8+ cells was measured, 98% of the cells were in the G0-G1 phase of the cell cycle. These data indicate that NK cell number and activity are elevated in DP rats, and support a role for NK cells in the pathogenesis of BB/W diabetes.     

Identification of profound peripheral T lymphocyte immunodeficiencies in the spontaneously diabetic BB rat

The BB rat is presently the best available animal model for human insulin dependent diabetes (IDD). Because of the extreme susceptibility of the strain to opportunistic infections and because current studies suggest that they have an autoimmune diathesis, of which IDD is but one result, aspects of the immune system of the BB rat were studied. Severe T lymphopenia was observed in all BB rats, irrespective of sex or the presence of IDD, while numbers of B cells and serum immunoglobulin levels were normal. Both the helper T lymphocyte and cytotoxic/suppressor T lymphocyte subsets, defined by reactions with monoclonal antibodies, were depressed, and an inversion of the helper T cell subset to cytotoxic/suppressor T lymphocyte subset ratio occurred in all BB rats with increasing maturity. Concomitantly, severe impairments of T cell-mediated immune responses were noted. BB rats poorly rejected allografts across both major and minor histocompatibility barriers, and BB splenic or peripheral blood lymphocytes had markedly defective proliferative responses to mitogens and to allogeneic cells in MLC. Irradiated and nonirradiated BB spleen cells did not inhibit WF mitogenic or MLC responses, which suggests that the T cell defect in BB rats is not solely due to increased suppressor activity. Because irradiated WF cells and Con A supernatants did not restore BB proliferative responses, and BB lymphocytes were able to produce IL-2 normally, a reduced ability of BB lymphocytes to respond to helper factors such as IL-2 is suggested. In contrast to T lymphocytes from spleen or peripheral blood, BB thymocytes responded as well as did WF thymocytes to Con A or Con A supernatants. Percentages of T lymphocyte subsets and histology of BB thymuses were also normal when compared to WF thymuses. However, spleens and lymph nodes from BB rats were severely depleted of T lymphocytes, and thymocytotoxic autoantibodies were detected in many BB rat sera. The above findings indicate that BB rats have T lymphocyte immunoincompetence, which appears to be a post-thymic or peripherally acquired maturational defect.     

Reestablishment of self tolerance by suppressor T-cells after active Heymann's nephritis

Adoptive transfer experiments were performed to obtain evidence that the down-regulation of the autoimmune response in rats with active Heymann's nephritis (HN) is due to suppressor T cells. Late in the course of HN antigen-specific OX8+ suppressor T cells were found in the spleen, but never in the draining lymph nodes. These cells were shown to suppress the autoimmune response when transferred to naive recipients that were subsequently challenged. By mixing B cells or helper T cells from rats with HN with suppressor T cells from high-dose tolerant rats we showed that OX8+ suppressor T cells appeared to have a direct suppressive effect on autoreactive B cells. A profound suppressive effect on helper T cells appeared after 10 weeks. Possible mechanisms to account for the failure of Lewis rats to maintain self tolerance are discussed.     

Generation and characterization of continuous lines of CD8+ suppressor T lymphocytes

The ability to grow normal T lymphocytes in long term culture has advanced our understanding of T cell biology. The growth of CD4+ cell lines allowed a further evaluation and appreciation of functional subtypes within this group. Cytotoxic CD8+ T cells have been characterized as well. The routine and continuous culture of Ag-nonspecific CD8+ Ts cells has been difficult to achieve. We have found that CD8+ T cells that suppress T cell proliferation and lack cytotoxic activity against T cells can be routinely obtained from PWM or PHA-stimulated PBMC. Continuous culture of T cell blasts from PWM or PHA-stimulated PBMC resulted in the growth of CD4+ and CD8+ T cells. These lines developed suppressor cell activity within 7 days after stimulation with PWM and 3 to 4 wk after stimulation with PHA. Concomitant with the development of suppressor activity was the loss of CD4+ T cells resulting in homogeneous lines of CD8+ suppressor cells. These cell lines have been maintained in continuous culture for greater than 6 mo by addition of rIL-2 twice weekly and restimulation with feeder cells and PHA every 2 wk. Activity of these cell lines was relatively resistant to irradiation or treatment with mitomycin C. Both cell lines suppressed proliferation of autologous or heterologous CD4+ T cells stimulated with PWM, OKT3, or tetanus toxoid but failed to suppress proliferation of CD4+ T cells in a mixed lymphocyte reaction. CD4+ T cells stimulated with PWM produced equivalent amounts of IL-2 in the presence or absence of Ts cells but failed to express the IL-2R (TAC) on their surface in the presence of Ts cells. By contrast, CD4+ T cell lines or cytotoxic CD8+ T cell lines failed to suppress proliferation of CD4+ T cells. With these results we describe methods for the generation and continuous culture of Ag-nonspecific CD8+ Ts cells and define some of their properties. These cells lines should be helpful in further elucidating the functional and phenotypic repertoire of CD8+ Ts cells.     

Functional dichotomy between OX40 and 4-1BB in modulating effector CD8 T cell responses

Members of the TNFR family are thought to deliver costimulatory signals to T cells and modulate their function and survival. In this study, we compare the role of two closely related TNFR family molecules, OX40 and 4-1BB, in generating effector CD8 T cells to Ag delivered by adenovirus. OX40 and 4-1BB were both induced on responding naive CD8 T cells, but 4-1BB exhibited faster and more sustained kinetics than OX40. OX40-deficient CD8 T cells initially expanded normally; however, their accumulation and survival at late times in the primary response was significantly impaired. In contrast, 4-1BB-deficient CD8 T cells displayed hyperresponsiveness, expanding more than wild-type cells. The 4-1BB-deficient CD8 T cells also showed enhanced maturation attributes, whereas OX40-deficient CD8 T cells had multiple defects in the expression of effector cell surface markers, the synthesis of cytokines, and in cytotoxic activity. These results suggest that, in contrast to current ideas, OX40 and 4-1BB can have a clear functional dichotomy in modulating effector CD8 T cell responses. OX40 can positively regulate effector function and late accumulation/survival, whereas 4-1BB can initially operate in a negative manner to limit primary CD8 responses.     

Characterization of a suppressor cell line which downgrades experimental autoimmune uveoretinitis in the rat

A Ts lymphocyte line was isolated from spleens of rats primed with the retinal soluble Ag (SAg) in the anterior chamber of the eye. This line could inhibit in vitro SAg-driven proliferation of uveitogenic Th lymphocytes, in a radioresistant, Ag-independent manner. Adoptively transferred Ts line cells were found to downgrade experimental autoimmune uveoretinitis in actively immunized syngeneic recipients. The initial surface phenotype (OX8+) of the Ts line was unstable in vitro, however, the cells expressed suppressor function irrespective of phenotype. The mechanism of suppression did not appear to involve consumption of IL-2 or direct cytolysis of uveitogenic Th lymphocytes, but rather the production of a soluble suppressor factor. These findings may suggest an in vivo role for suppressor lymphocytes, capable of inhibiting primed Th cells, in the regulation of experimental autoimmune uveoretinitis.     

Immune regulation and control of regulatory T cells by OX40 and 4-1BB

The TNFR family members OX40 (CD134) and 4-1BB (CD137) have been found to play major roles as costimulatory receptors for both CD4 and CD8 T cells. In particular, in many situations, they can control proliferation, survival, and cytokine production, and hence are thought to dictate accumulation of protective T cells during anti-viral and anti-tumor responses and pathogenic T cells during autoimmune reactions. As opposed to simply controlling the activity of naïve, effector, and memory T cells, recent data have suggested that both molecules are also instrumental in controlling the generation and activity of so-called regulatory or suppressor T cells (Treg), perhaps in both positive and negative manners. Part of the action on Treg might function to further promote protective or pathogenic T cells, but alternate activities of OX40 and 4-1BB on Treg are also being described that suggest that there might be control by these molecules at multiple levels that will alter the biological outcome when these receptors are ligated. This review specifically focuses on recent studies of regulatory T cells, and regulatory or suppressive activity, that are modulated by OX40 or 4-1BB.     

Regulation of the immune response to alloantigens: suppressor and helper T cells generated in the primary MLR of the rat

The primary MLR of the rat was used to generate suppressor, cytotoxic, and helper T cells from lymph node cells of the WF (RT1 mu) inbred strain. They were assayed in 51Cr-release cytotoxic assays and by their effect on proliferation of fresh unprimed responder cells. Suppression by MLR cellular products was antigen-specific and generation and functional expression were directed to class II (RT1.B,D) antigens of stimulator cells in the strains tested. In contrast, help was not antigen-specific. The monoclonal antibodies OX8 and W3/25 were used to separate the primed products of the MLR into the constitutive subsets, suppressor/cytotoxic (OX8+) and helper/inducer (W3/25+). Gamma irradiation of OX8+ MLR-primed cells caused modest reductions in suppressive activity, but had no effect on the helper activity of W3/25+ cells. MLR-derived suppressor cells are effective only when added in the early stages of the test primary MLR, whereas helper cells can augment proliferation even when added late. Feedback suppression is not mediated by classical cytotoxic T cells, because of differences in kinetics of development, cell numbers required, susceptibility to freezing, and expression of the RT6 differentiation antigen.     

Autoreactive T cells in mercury-induced autoimmunity. Ability to induce the autoimmune disease

It has been previously shown that autoreactive T cells appear during mercury-induced autoimmunity in Brown-Norway (BN) rats. In the present work, it is shown that: 1) T cells and T helper cells from HgCl2-injected BN rats are able to actively transfer autoimmunity in normal BN rats; the disease transferred is exacerbated when recipients are treated with the antisuppressor/cytotoxic T cell monoclonal antibody (OX8); 2) normal T cells preincubated with HgCl2 are also able to transfer the disease in OX8-treated but not in T cell-depleted rats; and 3) T cells from HgCl2-injected BN rats also transferred the disease in both normal and T cell depleted rats. It is concluded that: 1) autoreactive T cells, and presumably anti-Ia T cells are involved in the pathogenesis of mercury-induced autoimmunity; 2) these autoreactive T cells induce suppressor/cytotoxic T cells to proliferate in normal syngeneic recipients; the fact that this T cell subset did not proliferate in HgCl2-injected BN rats suggests that HgCl2 also affects T suppressor cells; and 3) mercury-induced autoimmunity could result from the additive effect of the emergence of autoreactive T cells and of a defect at the T suppressor level.     

Absence of the RT-6 T cell subset in diabetes-prone BB/W rats

Diabetes-prone Bio-breeding/Worcester (DP) rats exhibit a severe T cell lymphopenia and autoimmune pancreatic insulitis. The present results indicate that the T cell lymphopenia is due in large part, if not entirely, to the absence of the RT-6+ peripheral T cell subset, which includes members of both the helper/inducer (W3/25) and suppressor/cytotoxic (OX 8) antigenic phenotypes. Delineation of the causal mechanism(s) for the selective absence of RT-6+ T cells in DP rats may provide important insights into the cellular basis of the insulin-dependent diabetes mellitus syndrome in these animals.     

Spontaneous diabetes mellitus syndrome in the rat. II. T lymphopenia and its association with clinical disease and pancreatic lymphocytic infiltration

We have studied the occurrence of two phenotypic components (pancreatic lymphocytic infiltration [PLI] of the pancreas and T lymphocytopenia) of the spontaneous insulin-dependent diabetic syndrome (IDDM) in the progeny of hybrids obtained by crossing BB diabetic rats with rats of inbred strains differing from the BB rat at the major histocompatibility complex, RT1. Both PLI and T lymphopenia were seen in animals with all three possible genotypes in both (BUF x BB) and (LEW x BB) lines. PLI was seen in all IDDM animals. T lymphopenia was strongly associated with overt IDDM in both lines (chi 2 = 22.28, p = 0.00002 and chi 2 = 19.28, p less than 0.00001). In addition, T lymphopenia was associated with PLI with and without IDDM in both lines (chi 2 = 8.32, p = 0.0039 an chi 2 = 3.95, p = 0.0467). Not all animals exhibiting PLI without overt IDDM had depressed T cells. Not all animals with T lymphopenia had PLI with or without IDDM. In both lines, the overt IDDM occurred only in animals with at least one RT1 u haplotype derived from the BB rat, confirming our previously reported association of IDDM and RT1. We interpret this evidence to suggest that the overt IDDM syndrome requires one MHC-linked gene and at least two non-MHC-linked genes, which determine susceptibility to PLI and to circulating T lymphocyte depression.     

Altered levels of mononuclear leukocytes in tumor-bearing rats: decrease of helper T lymphocytes and increase of suppressor cells

In the spleen and peripheral blood of BN rats with progressive tumors, W3/25+ T helper cells were significantly reduced and OX8+ T suppressor/cytotoxic cells were significantly increased. The ratio of helper to suppressor elements was decreased to 1.6 from a ratio of 3 in normal BN rats without tumors, and this decreased ratio correlated with tumor growth. When tumors were eliminated in vivo by infusion of effector cells (W3/25+ T lymphocytes), the levels of W3/25+ and OX8+ T cells returned to normal and the ratio of helper to suppressor/cytotoxic cells in the spleen and peripheral blood reverted to 3.0 or higher. Macrophages and null cells, T-sIg-, were also elevated in the spleen and peripheral blood of rats bearing expanding tumors and returned to normal levels after cure. Assays of spleen cells for cell-mediated cytotoxicity in rats with large tumors revealed little or no specific cytotoxicity. Cytotoxic activity was high in spleen of rats cured of their neoplasms by infusion of helper cells.     

Characterization of RT6 bearing rat lymphocytes. I. Ontogeny of the RT6+ subset

The RT6 alloantigen is present on approximately 70% of peripheral T cells in the rat, but is absent from thymocytes and bone marrow lymphocytes. The results of further phenotypic analysis in the present study demonstrated that the RT6 alloantigen is expressed on approximately 45% of the helper/inducer (CD4; W3/25+) and 80% of the cytotoxic/suppressor (CD8; OX8+) peripheral T-cell subsets. Ontogenetic and thymus ablation studies indicated that the RT6+ T-cell subset is thymus-dependent and normally develops after the appearance of RT6-T cells in neonatal rats, and that the expression of RT6 is a post-thymic maturational event. Furthermore, intrathymic adoptive transfer of bone marrow cells demonstrated that RT6+ T cells are thymus-derived cells. These results show that most if not all RT6+ T cells are the progeny of RT6- T cells. However, they do not exclude the possibility that a separate lineage of RT6- T cells exists, which also has OX8+ and W3/25+ subsets. The possible developmental and functional relationships of RT6- and RT6+ T cells in the rat are discussed.     

The functional link between the immune suppression gene and Mhc class II molecules

The immune response to bovine insulin (BI) in the rat is controlled by the major histocompatibility complex (Mhc)-linked immune response gene (Ir-BI) and immune suppression gene (Is-BI). In the present study, we investigated the low responsiveness to BI in the WKAH rat (RT1 ^k ) and attempted to explore the functional link between Is-BI and Mhc class II molecules. Lymph node cells (LNC) from the low responder (WKAH) rats responded well to BI when a large amount of antigen was added to the culture in vitro or after OX8-bearing (OX8⁺) T cells were eliminated. These LNC, after the elimination of OX8⁺ cells, could show the RT1.D^k-restricted proliferative response upon in vitro challenge with BI, BI-B chain, or pork insulin. In addition, OX8⁺ T cells, which were activated with BI and antigen-presenting cells (APC) in vitro, suppressed the anti-BI response of W3/25-bearing proliferating T cells from BI-immunized rats. The results have demonstrated that proliferating T-cell repertoires do exist to BI, which recognize BI-B chain in the context of RT1.D^k molecules in the WKAH rat, and that the state of low responsiveness is mediated to a great extent by antigen-specific OX8⁺ suppressor T (Ts) cells. Furthermore, the elimination of APC or the addition to RT1.B^k-specific monoclonal antibody in the in vitro secondary activation culture of Ts cells diminished the suppressive activity of OX8⁺ Ts cells. In the induction phase of Ts cells it therefore seems to be necessary for these cells to recognize BI together with RT1.B^k molecules on APC.     

The differential ability of splenic adherent cells from B6.lpr mice to induce suppressor T cells

Hapten-coupled splenic adherent cells or resident peritoneal cells from autoimmune B6.lpr mice that are over 5 mo of age fail to induce first-order inducer suppressor T cells (Ts1). However, the same population of hapten-coupled cells can induce both delayed-type hypersensitivity responses and third-order effector suppressor T cells (Ts3). Thus, splenic and peritoneal antigen-presenting cells from B6.lpr mice display a defined defect in the ability to induce certain suppressor T cell responses. The cellular defect in Ts1 induction is controlled by the lpr gene, since age-matched congenic B6 mice do not display this defect. The splenic adherent cell defect is temporarily correlated with the autoimmunity that develops in B6.lpr animals. The antigen-presenting defect in the B6.lpr splenic adherent population for Ts1 induction is reversible by culturing the cells in interferon-gamma. The results are discussed as an illustration of the relationship between experimental models of autoimmunity and defects in a suppressor T cell cascade.     

Significant role for Fas in the pathogenesis of autoimmune diabetes

Programmed cell death represents an important pathogenic mechanism in various autoimmune diseases. Type I diabetes mellitus (IDDM) is a T cell-dependent autoimmune disease resulting in selective destruction of the beta cells of the islets of Langerhans. beta cell apoptosis has been associated with IDDM onset in both animal models and newly diagnosed diabetic patients. Several apoptotic pathways have been implicated in beta cell destruction, including Fas, perforin, and TNF-alpha. Evidence for Fas-mediated lysis of beta cells in the pathogenesis of IDDM in nonobese diabetic (NOD) mice includes: 1) Fas-deficient NOD mice bearing the lpr mutation (NOD-lpr/lpr) fail to develop IDDM; 2) transgenic expression of Fas ligand (FasL) on beta cells in NOD mice may result in accelerated IDDM; and 3) irradiated NOD-lpr/lpr mice are resistant to adoptive transfer of diabetes by cells from NOD mice. However, the interpretation of these results is complicated by the abnormal immune phenotype of NOD-lpr/lpr mice. Here we present novel evidence for the role of Fas/FasL interactions in the progression of NOD diabetes using two newly derived mouse strains. We show that NOD mice heterozygous for the FasL mutation gld, which have reduced functional FasL expression on T cells but no lymphadenopathy, fail to develop IDDM. Further, we show that NOD-lpr/lpr mice bearing the scid mutation (NOD-lpr/lpr-scid/scid), which eliminates the enhanced FasL-mediated lytic activity induced by Fas deficiency, still have delayed onset and reduced incidence of IDDM after adoptive transfer of diabetogenic NOD spleen cells. These results provide evidence that Fas/FasL-mediated programmed cell death plays a significant role in the pathogenesis of autoimmune diabetes.     

Isolation and characterization of in vitro and in vivo functions of a tumor-specific T suppressor cell clone from a BALB/c mouse bearing the syngeneic ADJ-PC-5 plasmacytoma

A spontaneously transformed T suppressor (Ts) clone, A12-D11/t, is described which arose from the antigen-specific Ts clone A12-D11 isolated from cells of the inguinal lymph node of a BALB/c mouse bearing the syngeneic plasmacytoma ADJ-PC-5. A12-D11/t Ts cells suppress in vitro specifically a primary syngeneic cytotoxic antitumor response with the consequence that no ADJ-PC-5-specific cytotoxic T cells can be generated. The in vivo effects of A12-D11/t Ts cells were studied by injecting them into BALB/c mice. Spleen cells from those mice subsequently failed to respond against ADJ-PC-5 plasmacytoma cells, whereas their response against other syngeneic BALB/c tumors remained unaffected. By using a model system which allows us to study the host's immune reactions to the antigenic load corresponding to initial stages of tumorigenesis, it has been shown previously that ADJ-PC-5-specific Ts cells are activated before the antigen threshold for the activation of cytotoxic T cells is reached. Regarding its phenotype and specificity, the A12-D11/t Ts clone seems to be the exact counterpart of such a Ts cell, and is therefore of special interest in the study of the role of Ts cells preventing immunity against a growing tumor.