Differential activation of cytotoxic and suppressor T cells against syngeneic tumors in the mouse.

The cytotoxic T cell against a methylcholanthrene-induced sarcoma, S1509a, was induced in syngeneic mice by deliberate immunization with mitomycin C (MMC)-treated live tumor cells. The soluble tumor antigen (STA) extracted from the same tumor by 3 M KCl was, however, unable to induce the cytotoxic T cell upon immunization, although it was able to activate predominantly the suppressor T cell that then specifically suppressed the effect of the cytotoxic T cell against the homologous tumor. The suppressor T cell generated by STA had the same characteristics as those found in tumor-bearing animals: 1) The suppressor T cell has a very strict specificity against individual tumors; 2) The cell expresses cell surface determinants controlled by genes in the I-J subregion of the mouse H-2 complex. The activity of the cytotoxic T cell was completely inhibited by live tumor cells but not by STA, whereas that of the suppressor T cell was neutralized by STA. The results that cytotoxic and suppressor T cells are activated under different conditions, and that the antigenic determinants recognizable by these two cell types are not the same. The soluble extract contains only the determinants recognizable by the suppressor T cell, and the cytotoxic T cell can be activated only by the determinants associated with self antigen present on the surface of live tumor cells.     

In vitro generation of cytotoxic lymphocytes against radiation and radiation leukemia virus-induced tumors

Summary Cytotoxic T lymphocytes (CTL) to syngeneic radiation- or radiation leukemia virus (RadLV)-induced tumors were generated in vitro in mixed lymphocytetumor cultures (MLTC) using splenocytes of mice primed in vivo with inactivated tumor cells. Effective sensitization was obtained with virus-producer cell lines, while cells of a virus-nonproducer line did not sensitize.The CTL could lyse syngeneic, but not allogeneic, tumor cells of established lines producing C-type virus and therefore expressing membrane-associated viral antigenicity.Susceptibility of primary leukemias to cell-mediated lysis could not be tested due to a very high spontaneous ⁵¹ Cr release shortly after labeling. In a cold target competition assay, however, the RadLV-induced, but not the X-radiation-induced primary tumor cells inhibited the cytotoxic reactivity. This inhibition was correlated with the level of viral antigen expression on the inhibiting cells, which was high in the RadLV-induced and low in the radiation-induced primary tumors.These results suggest that antitumor CTL generated under conventional MLTC conditions are largely stimulated by and directed at virus-related antigens not necessarily associated with the malignant state of the cell.     

Cell-mediated cytotoxicity against syngeneic tumors

Spleen cells from DBA/2 mice bearing the DBA/2 P815X mastocytoma for approximately 2 weeks can be stimulated in vitro by mastocytoma cells to generate cytotoxicity measured as ⁵¹Cr release from mastocytoma cells in a 4-hr assay. These cytotoxic cells will not kill allogeneic cell lines but will kill a series of first transplant generation syngeneic tumors. T cells are involved in that treatment of the responding or the cytotoxic cell populations with either anti-T or anti-theta antibody + complement will abrogate all cytotoxicity. Anti-Ly 2.1 antibody + complement treatment of either responder cells (prior to the in vitro culture with irradiated tumor cells) or effector cells after culture markedly decreases cytotoxicity whereas treatment with anti-Ly 1.1 was more effective prior to culture compared to its effect on cytotoxic cells per se. These T cells are in the small lymphocyte class and occur either singly or in aggregates. Suppression of antisyngeneic tumor cytotoxicity by antibody inhibits preferentially the expression of cytotoxicity in the aggregate fractions.     

Con A induced suppressor cells: suppression with I region incompatibility.

Allogeneic Con A induced suppressor cells differing in the I and S region but not H-2K or H-2D regions were as efficient as syngeneic cells in suppressing the secondary IgM and IgG response to burro erythrocytes. Con A activated suppressor cells were not sensitive to anti-Ia serum and complement. However, if the spleen cell population was treated with anti-Ia serum and complement before stimulation with Con A, suppressor cells were not generated.     

Immunologic significance of nonspecific suppressor cells in spleens of tumor-bearing mice.

Spleen cells from mice bearing a progressively growing syngeneic tumor failed to respond to stimulation with mitogens in vitro. This lack of reactivity was due to the presence of nylon wool-adherent cells in the population that could inhibit the mitogen response of normal lymphocytes. Paradoxically, at times when strong suppressor cell activity could be detected in tumor-bearing mice, the animals responded normally to in vivo immunization with sheep erythrocytes and allogeneic tumors, and to in vitro sensitization with allogeneic tumor cells. Regression of a highly antigenic syngeneic tumor also was unaffected by the presence of these suppressor cells. Thus, the occurrence of nonspecific suppressor cells in the spleens of tumor-bearing mice did not influence the overall immunologic competence of these animals.     

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.     

Cell-mediated immune response to syngeneic UV induced tumors: I. The presence of tumor associated macrophages and their possible role in the in Vitro generation of cytotoxic lymphocytes

A primary in vitro sensitization system employing a chromium release assay was utilized to investigate reactivity of murine spleen cells toward syngeneic ultraviolet (uv) light induced fibrosarcomas. These tumors are immunologically rejected in vivo when implanted into normal syngeneic mice but grow progressivly when implanted into syngeneic mice that had previously been irradiated with subcarcinogenic levels of uv light. Following appropriate sensitization, spleen cells from both normal and uv irradiated mice are capable of developing cytotoxic lymphocytes in vitro against the uv induced tumors. It was subsequently discovered that in situ uv induced tumors all contained macrophages of host origin that became demonstrable only after enzymatic dissociation of the tumor tissue. These macrophages were immunologically active in vitro as their presence in the stimulator cell population was necessary to achieve an optimum anti-tumor cytotoxic response following in vitro sensitization. Anti-tumor reactivity generated by mixing spleen cells and tumor cells in the absence of tumor derived macrophages could be greatly enhanced by the addition of normal syngeneic peritoneal macrophages. When in vitro anti-tumor reactivity of spleen cells from normal and uv treated mice was compared under these conditions we again found no significant difference in the magnitude of the responses. In addition, the cytotoxic cells generated in response to uv induced tumors appeared to be highly cross reactive with respect to their killing potential. Cross reactive killing was observed between all uv induced tumors tested as well as with a syngeneic benz[a]pyrene (BP) induced fibrosarcoma. No cytotoxicity was observed against normal syngeneic PEC's even through these cells were shown to be susceptible to lysis by anti-H-2^k effector cells. It was concluded that: (a) A significant number of host-derived macrophages are present in uv tumor tissue. (b) These macrophages are important for the in vitro generation of tumor specific cytotoxicity. (c) Spleen cells from uv treated mice are capable of recognizing and responding against uv tumor associated antigens in vitro. Cytotoxic effector cells generated in response to uv induced tumors appear to have specificity for tumor associated antigens (TAA) present on all uv tumors tested as well as a syngeneic BP induced tumor. The relationship between in vivo and in vitro reactivity against uv tumors is discussed.     

Studies on the specificity of in vitro-induced lymphocytotoxicity to methylcholanthrene-induced fibrosarcoma cell lines

Cytotoxic effector lymphocytes were induced by in vitro immunization of lymph node and spleen cells from CS7B16(H2^b) and Balb/c(H2^d) mice to syngeneic or allogeneic methylcholanthrene-induced fibrosarcoma (MCAF) cell lines. The T cell-dependent cytotoxicity was specific to target cell lines to which the lymphocytes were immunized in vitro. Normal fibroblasts as stimulator cells did not induce lymphocytotoxicity to syngeneic MCAF cells or to normal syngeneic fibroblasts. The results indicate that the in vitro-immunized lymphocytes recognize individual specific tumor-associated antigens of the MCAF cells. In experiments in which the lymphocytes were immunized in vitro to allogeneic MCAF cells, cytotoxic reactions to alloantigens, but not to tumor-associated antigens, were detected. Incubation with phytohemagglutinin (PHA) during the sensitization period modified the specificity of the cell-mediated lysis of MCAF cells: Allogeneic as well as syngeneic target cells were destroyed by these effector cells. PHA induced a nonspecific cytotoxic effect which increased the specific lysis of target cells. The cytotoxicity of the in vitro-immunized lymphocytes was inhibited by incubation with membrane protein preparations from the syngeneic MCAF cell lines. In contrast to the specificity of the cytotoxic effect to the different syngeneic cell lines, the membrane extract of one individual syngeneic MCAF cell line was able to inhibit the lymphocytotoxicity to all other syngeneic cell lines. Membrane protein preparations from allogeneic MCAF cells or from normal syngeneic fibroblasts were not inhibitory. The in vitro-immunized cytotoxic lymphocytes did not impair the tumor growth in vivo as could be demonstrated by passive transfer of the lymphocytes in a Winn assay.     

Studies of the mechanisms for the induction of in vivo tumor immunity. VI. Induction of specific and nonspecific cell-mediated immunity in tumor-bearing hosts and its correlation with transplantation tumor immunity

Studies were performed to determine the development of cell-mediated cytotoxic response at tumor site in C57BL/6 mice bearing progressively growing FBL-3 ascites leukemia. The effectors isolated from tumor ascites are found to be highly cytotoxic for leukemic target cells. The levels of cytotoxicity obtained with effectors isolated from tumor site are generally higher than those obtained with immune mice. This cytotoxicity is both specific and nonspecific. The specific cytotoxicity against tumor-associated antigen is mainly mediated by T cells and the nonspecific cytotoxicity against unrelated tumor cells is mediated largely by macrophages. The T-cell-enriched preparation did not give significant natural killer activity. When testing the ability of these effectors to produce in vivo immunity against the challenge of FBL-3, it was found that only T cells could confer the transplantation-type immunity, but the immunity was transient. The macrophage-enriched preparation isolated from tumor ascites failed to give in vivo protection. These findings indicate that in FBL-3 system, mice with progressively growing tumors are able to develop immune response against tumor cells. However, this immunity is probably interfered with by a suppressor factor(s) or suppressor cells which restrict their activity to eliminate the tumor cells effectively.     

Enhanced TNP-reactive helper T cell activity and its utilization in the induction of amplified tumor immunity that results in tumor regression

The present study was designed to investigate the generation of trinitrophenyl (TNP)-reactive helper T cell activity potent enough to induce the regression of a syngeneic tumor; this occurs by augmenting antitumor-specific immunity through T-T cell interaction. Mice whose skin was painted with trinitrochlorobenzene (TNCB) exhibited a variety of anti-TNP T cell responses, including delayed-type hypersensitivity (DTH) and cytotoxic T cell responses, as well as helper T cell activity. Pretreatment of C3H/He mice with TNP-conjugated copolymer of D-glutamic acid and lysine (TNP-D-GL) or cyclophosphamide, which have been shown, respectively, to inactivate TNP-specific suppressor T cells or suppressor T cells in general, exhibited a slight or marginal augmentation of DTH and cytotoxic potentials when tested 5 wk after TNCB painting. In contrast, the same pretreatment regimens induced an appreciably amplified generation of anti-TNP helper T cell activity. This amplified TNP-helper T cell activity was demonstrated to enhance cytotoxic responses to antigens other than TNP in an antigen-nonspecific way. In fact, such helper T cells enhanced antitumor CTL responses when co-cultured with spleen cells from syngeneic X5563 plasmacytoma-bearing mice in the presence of TNBS-modified X5563 tumor cells. This amplified TNP-helper cell system was utilized for its immunotherapeutic potential. When TNCB was injected into X5563 tumor mass of syngeneic C3H/He mice in which the amplified TNP-helper T cell activity had been generated, an appreciable number of growing tumors was observed to regress. This contrasted with the low incidence of tumor regression observed in mice in which TNP-helper activity had been induced by TNCB painting without inactivation of suppressors. Thus, the present model provides an effective immunotherapeutic manipulation for eliciting enhanced in vivo tumor regression, and emphasizes a role of helper T cells in augmentation of syngeneic tumor immunity.     

The requirement of Ia-positive accessory cells for the induction of tumor-specific cytotoxic T lymphocytes in vitro

The mechanism for the induction of cytotoxic T cells specific for tumor-associated antigens was studied by using fractionated responder T cells, tumor cells, and accessory cells in vitro. The tumor-specific cytotoxic T cells were induced by culturing immunized spleen cells with the tumor cells in vitro for 5 days. Nylon-column-purified T cells alone did not induce cytotoxic T cells upon culture with tumor cells, but the addition of normal spleen cells as accessory cells did successfully induce the cytotoxic T cells, suggesting that the presence of accessory cells is required for the activation of tumor-specific cytotoxic T cells in vitro. The accessory function was associated with spleen cell populations adhering to a plastic dish, a Sephadex G-10 column or a nylon wool column, and was sensitive to anti-Ia serum and C treatment, but was resistant to anti-Ig serum or anti-Thy 1 serum and C treatment, suggesting that the accessory cells are Ia-positive macrophages. Not only syngeneic but also allogeneic macrophages had the accessory function and the allogeneic macrophages were also Ia positive. These results suggest that Ia-positive macrophages play a crucial role in the induction of tumor-specific cytotoxic T cells in vitro. The possible role of Ia-positive accessory cells in the induction of tumor-specific cytotoxic T cells is discussed from the standpoint of cellular interactions.     

Acquisition of syngeneic I-A determinants by T cells proliferating in response to poly (Glu60Ala30Tyr10)

The T cell proliferative response in mice to the synthetic polymer GAT is under Ir gene control, mapping to the I-A subregion of the H-2 major histocompatibility complex (MHC). Antigen-dependent proliferation in vitro of in vivo GAT-primed lymph node cells can be inhibited by a monoclonal antibody to Ia-17, an I-A public determinant. Using this antibody for direct immunofluorescent analysis, T cells in GAT-stimulated proliferative culture are identified that express syngeneic I-A during culture. This expression is strictly antigen dependent, requires restimulation in vitro, and requires the presence of I-A-positive adherent antigen-presenting cells. T cells bearing I-A can be enriched by a simple affinity procedure, and I-A-positive cells separated on a FACS are shown to retain antigen-specific reactivity. The acquisition of I-A determinants by T cells under these culture conditions is not nonspecific. The Ia determinants borne by T cell blasts appear to be dictated by the I subregion to which the relevant Ir gene maps, and which codes for the Ia molecule involved in presentation of the antigen. Thus, (B6A)F1 (H-2b X H-2a)F1 LNC express I-Ak antigens when proliferating to GAT but not when stimulated by GLPhe, the response to which is under I-E subregion control. The relation of Ir gene function to Ia-restricted antigen presentation and self-Ia recognition is discussed.     

Evaluation of in vivo and in vitro effectivity of immune defense against a spontaneously arising,nonlymphoid rat tumor

Summary It was evaluated in vitro whether it is possible to induce immunogenicity by haptenization of a nonlymphoid rat tumor, BSp6AS, which is known to be antigenic, but non-immunogenic, in the syngeneic host. The effectivity of induced immunogenicity was tested in vivo.BSp6AS, an NK- and macrophage-resistant variant of a spontaneously arising fibrosarcoma in the BDX rat strain, does not induce a primary or a secondary T cell response after in vivo or in vitro priming. This deficiency in cytotoxic response is due solely to failure of activation of helper T cells (T_H), since (a) cytotoxic T cells (CTL) can be detected after in vitro stimulation in the presence of interleukin 2 (IL-2)-containing medium; and (b) there are no indications for down-regulation of a potential specific immune response by suppressor T cells (T_S). The lack of activation of tumor-specific T_H can be bypassed by activation of hapten-specific T_H. Upon coculture with haptenized tumor cells as a stimulator population, both hapten-specific and tumor-specific CTL are activated by hapten-specific T_H.In line with the findings in vitro, no transplant rejection of naive tumor cells was seen after a variety of immunization schedules. But immunized F₁ hybrids did reject tumor grafts, supporting the hypothesis of lacking help in the syngeneic situation. This could be confirmed in the syngeneic system by adoptive transfer experiments. Tumor-specific CTL, educated in vitro in the presence of IL-2, were ineffective. But complete protection against haptenized, and partial protection against native tumor cells was achieved in the additional presence of hapten-specific T_H.To our knowledge these experiments prove for the first time that hapten-specific T_H are efficient in inducing an immune response even against a nonlymphoid, nonimmunogenic tumor, i.e., it is possible (a) to activate tumor-specific CTL and (b) to initiate tumor graft rejection via hapten-specific T_H.Abbreviations BSS Hank's balanced salt solution - CFA complete Freund's adjuvant - ConA Concanavalin A - CTL cytotoxic T cell - iFA incomplete FA - IL-2 interleukin 2-containing supernatant of rat spleen cells cultured in ConA - IP intraperitoneal - IV intravenous - LNC lymph node cells - 2-ME 2-mercaptoethanol - MHC major histocompatibility complex - MLTC mixed lymphocyte tumor cell culture - RPMI 1640 supplemented with antibiotics, L-glutamine and fetal calf serum - SC spleen cells - SC subcutaneous - TAA tumor-associated antigen(s) - TB tumor bearer - TD₁₀₀ tumor cell dose resulting in 100% takes - T_H helper T cells - T_S suppressor T cells - TNBS trinitrobenzenesulfonic acid - TNP trinitrophenyl - WAB Wistar Nottingham rats     

Studies of thymopoietin pentapeptide (TP5) on experimental tumors: I. TP5 relieves immunosuppression in tumor-bearing mice

The allogeneic and syngeneic immune responses of tumor-bearing mice (C57BL/6 mice bearing 3LL and DBA mice bearing P815) were evaluated by the cytotoxic lymphocyte precursor unit (CLP-U) and MLC. In general, tumor-bearing mice showed slightly enhanced immune responses 4 days after tumor inoculation. This enhanced immune response rapidly declined and about 7–10 days after tumor inoculation, both allogeneic and syngeneic responses were markedly lower than normal. Mice treated with TP5, starting 2 weeks before tumor inoculation, retained normal or enhanced allogeneic and syngeneic responses up to 3 weeks after tumor inoculation. When this tumor-induced suppressive effect was studied in cell transfer experiments, spleen cells from tumor-bearing mice enhanced the growth of tumors in syngeneic recipients whereas spleen cells from TP5-treated mice inhibited the growth of tumors in syngeneic recipients. Moreover, the spleen cells from TP5-treated mice also showed enhanced cytotoxic activity against tumor cells in vitro. These findings suggest that the tumors, after a transient stimulatory phase, induced immune suppressive mechanisms in the hosts' immune defenses. Treatment with TP5 prevented the development of these immune suppressive effects and spleen cells from TP5-treated tumor-bearing mice inhibited tumor growth in freshly tumor-inoculated recipients.     

Plant lectin,ATF1011, on the tumor cell surface augments tumor-specific immunity through activation of T cells specific for the lectin

Summary The possibility that a plant lectin as a carrier protein would specifically activate T cells, resulting in the augmentation of antitumor immunity was investigated. ATF1011, a nonmitogenic lectin for T cells purified from Aloe arborescens Mill, bound equally to normal and tumor cells. ATF1011 binding on the MM102 tumor cell surfaces augmented anti-trinitrophenyl (TNP) antibody production of murine splenocytes when the mice were primarily immunized with TNP-conjugated MM102 tumor cells. The alloreactive cytotoxic T cell response was also augmented by allostimulator cells binding ATF1011 on the cell surfaces. These augmented responses may be assumed to be mediated by the activation of helper T cells recognizing ATF1011 as a carrier protein. Killer T cells were induced against ATF1011 antigen in the H-2 restricted manner using syngeneic stimulator cells bearing ATF1011 on the cell surfaces. When this lectin was administered intralesionally into the tumors, induction of cytotoxic effector cells was demonstrated. These results suggest that intralesionally administered ATF1011 binds to the tumor cell membrane and activates T cells specific for this carrier lectin in situ, which results in the augmented induction of systemic antitumor immunity.     

Production of specific macrophage activating factor by lymphocytes from tumor-bearing mice.

Lymphocytes from C57BL mice bearing a syngeneic UV-induced fibrosarcoma (UV-112) produced macrophage activating fatcor (MAF) when cultured with UV-112 cells in vitro. This MAF rendered normal C57BL macrophages cytotoxic in vitro to UV-112 cells. MAF production and lymphocyte-mediated cytotoxicity were detected in the early stages of tumor growth, but were absent in mice bearing large tumors. This eclipsed reatcivity was specific for the growing tumor. Lymphocytes from mice bearing a large UV-112 tumor were still able to produce MAF in response to B16 melanoma to which they had been preimmunized. In all instances, the MAF produced was specific in that it rendered syngeneic macrophages cytotoxic against only the tumor used for immunization.     

Generation of cytotoxic lymphocytes to syngeneic tumor by using co-stimulator (Interleukin 2)

Cytotoxic lymphocytes (CL) highly active against the syngeneic mastocytoma, P815, were generated from spleen cells of DBA mice cultured with co-stimulator (Interleukin 2) and P815. More CL activity was generated from spleen cells of P815 tumor-bearing mice than from spleen cells of normal mice. Thymus cells from tumor-bearing mice, however, did not produce increased CL activity. Most of the CL were Thy 1 and Ly 1 positive. The optimal culture conditions and kinetics were similar to those for the generation of allogeneic cytotoxic T lymphocytes. The cytotoxic activity against syngeneic P815 was similar in magnitude to the response of DBA spleen cells to allogeneic tumor lines and to the response of allogeneic CBA spleen cells to P815. Although CL generated from tumor-bearing mice did not lyse normal DBA cells, they did lyse, to a much lesser degree, a number of tumor cell lines other than the sensitizing P815. This nonspecific lysis was not H2 restricted nor was it restricted to tumors of lymphoid origin. Generation of nonspecific cytolytic activity was antigen independent, occurring in the presence of co-stimulator alone.     

Cellular origin of blocking factors from cultured spleen cells of tumor-bearing mice

Spleen cells from mice bearing methylcholanthrene-induced tumors were cultured for 2 days without further stimulation. Blocking factors were consistently detected in culture supernatants by their ability to suppress leukocyte adherence inhibition reactions between soluble tumor antigens and peritoneal cells of tumor-bearing mice. The blocking factors were specific for individual tumors. The cellular origin of these factors was investigated by depleting the spleen cell population of various cell types before culturing. The cells involved were removed by treatment with antibodies to certain membrane markers (Thy-1, Ly-2, Ia, I-J) but not by anti-Ly-1 antibodies. Removal of adherent cells also prevented production of blocking factors, which was restored by reconstitution with syngeneic but not allogeneic cells from normal mice. The normal reconstituting cells were shown to bear Ia, but not I-J or IgM. This indicates that blocking factors (previously shown to have I-J determinants in their molecules) originate from suppressor T lymphocytes (Thy-1+, Ly-1-2+, I-J+), with macrophages (I-J-, Ia+) in the role of accessory cells.     

Virus-specific proliferative T-cell responses: Parameters and specificity

The genetic requirements for inducing virus-specific T-cell proliferation were investigated by taking spleen cells from animals primed with vaccinia virus in vivo, then culturing the cells in vitro with vaccinia virus-infected syngeneic peritoneal macrophages, and finally restimulating these cells a second time in vitro with vaccinia virus-infected macrophages from several strains of mice. Under these conditions, T cells proliferated in the tertiary response to virus-specific stimulation, whereas background proliferation caused by allogeneic differences between stimulator and responder cells was minimal. Compatibility between T cells and infected stimulator cells at the K or I regions alone or at I-A or I-A + I-B regions of the major histocompatibility complex (MHC) produced strong proliferative responses, whereas compatibility at D alone often resulted in somewhat weaker responses. However, these responses were rarely as great as in combinations of completely syngeneic stimulator and responder cells. Homology between responding and virus-infected stimulating cells in more than one of the H-2K, D, or I regions resulted in an additive, but not potentiating, effect. Genes coded outside the H-2 region did not seem to play a role in this system. In some rare cases, a weak response occurred across allogeneic barriers, but in general, virus-specific T-cell proliferation was strongly H-2 restricted.     

Role of the H-2I region in the generation of an antiviral cytotoxic T-cell response in vitro

The participation of H-2I gene products in generating virus-specific proliferative and/or cytotoxic T-lymphocyte (CTL) responses was investigated. Spleen cells from mice infected with vaccinia virus were restimulated secondarily in vitro with syngeneic virus-infected peritoneal exudate cells (PEC) and then restimulated in tertiary cultures with virus-infected PEC from syngeneic and partially histoincompatible strains of mice. Based on the finding that comparable proliferative responses resulted when stimulating the responding cells were histocompatible at the H-2K, I, or D region of the major histocompatibility complex (MHC), the additively enhanced, but not potentiated, proliferation caused by identity at two or three H-2 regions was analyzed. Enhancement of proliferation followed when the H-2K/D components plus virus and the H-2I components plus virus were either on the same, or alternatively on two, stimulating cells. This suggests that H-2K, D, and I plus virus trigger distinct T-cell subsets. A virus-specific CTL response was generated in vitro when spleen cells from virus-primed mice and even unprimed mice were stimulated with cells sharing only H-2K and/or H-2D of the MHC. Identity at the H-2I region did not stimulate a CTL response, nor did it influence the magnitude of the $\text{K}\text{D}$ restricted response. Nevertheless, the presence of anti-Ia antiserum in cultures of syngeneic stimulators and responders inhibited the cytotoxic response to a great extent. Therefore, H-2I region products seem to participate in the generation of virus-specific CTL in vitro.