Expression of alien histocompatibility antigens on SJL/J tumors detected by cell-mediated and serological analyses

Summary Reticulum cell sarcoma (RCS) cells of SJL/J (H-2^s) mice have been shown to express antigens that are cross-reactive with allogeneic cells of the H-2^d and H-2^b haplotypes by cell-mediated cytotoxicity, antibody-mediated cytotoxicity, immunofluorescence, and quantitative absorption assays. These alien antigens have been detected on both spontaneous and in vivo- and in vitro-passaged RCS cells to varying degrees.The in vitro cell lines were able to stimulate a syngeneic cytotoxic T cell response detected in a 4-h ⁵¹Cr release assay. The cytotoxic cells reacted with in vitro RCS tumor targets but not with in vivo or spontaneous RCS tumors. Furthermore, the cytotoxic cells lysed H-2^d and to a lesser extent H-2^b target cells, but not H-2^k, H-2^p, or H-2^r cells. The cross-reactivity was also observed with SJL/J anti-BALB/c cytotoxic cells, which can lyse in vitro RCS targets effectively. The in vivo tumors were not stimulatory in cytotoxic responses and did not serve as targets.H-2^d specificities were also detected in cultured RCS tumor cells by cytotoxic antibody. Both allogeneic SJL/J anti-BALB/c, C57B1/6 anti-BALB/c sera reacted with RCS tumor cells and not normal SJL/J cells. Furthermore, monospecific D^d sera were also cytotoxic against RCS lines. The cytotoxic activity could be absorbed by BALB/c cells and RCS cells but not with normal SJL/J cells. The H-2^d specificities were also detected on the in vivo lines by indirect immunofluorescence. The majority (60%) of spontaneously arising tumors expressed either H-2^d or H-2^b allospecificities in the immunofluorescence assays. Although these antigens may not be inappropriate for the SJL/J strain, their differential expression on tumor cells may be significant in the etiology of the tumor.     

Resistance to cell-mediated cytotoxicity is correlated with reduction of H-2K gene products in AKR leukemia

AKR leukemia cell lines differing in the amount of H-2K and H-2D antigens expressed on the cell surface were used to assess cell-mediated immune responses in syngeneic mice against Gross/AKR murine leukemia virus (MuLV)-induced tumors. Leukemic cells with reduced expression of H-2K^k antigens were inactive as inducers of Gross-MuLV/H-2^k-specific cytotoxic T lymphocytes (CTL) and resistant to lysis by CTL raised against H-2K^k positive AKR leukemia cells. H-2K^k positive leukemias induced cytotoxic effectors, which upon restimulation in vitro, lysed the stimulating and other H-2K^k positive leukemia cells. In antibody inhibition experiments, T-cell-mediated cytotoxicity to these leukemias could only be inhibited by antisera and monoclonal antibodies specific for the H-2K^k antigens. Due to this specific role of H-2K^k antigens in T-cell cytotoxicity to Gross/AKR MuLV-induced tumors, reduced expression of H-2K^k antigens on spontaneous AKR leukemic cells could have important implications for surveillance of these neoplastic cells.Abbreviations used in this paper CTL cytotoxic T lymphocytes - MuLV murine leukemia virus     

Genetic control of sensitivity to Moloney leukemia virus in mice V. Role of H-2-linked genes in the control of anti-FMR cytolytic T lymphocytes

Three H-2-linked genes, Rmv1, Rmv2, and Rmv3 control the resistance of mice against Moloney virus (MLV)-induced leukemias. It has been shown previously that they function as immune response (Ir) genes regulating the level of antivirus antibodies. In the present experiments, the cell-mediated anti-tumor response has been studied in a series of inbred strains selected for their resistance or sensitivity to the MLV-induced disease. We failed to detect any relationship between resistance and sensitivity and the ability to produce cytolytic T lymphocytes (CTL) directed against the virus-induced FMR cell surface antigen. Furthermore, the role of each Rmv gene has been studied separately using congenic pairs of mice differing at only one of these loci: we failed to evidence any influence of these genes in the cell-mediated antitumor reactions as measured by the ability to lyse syngeneic FMR(+) target cells. Nevertheless a gene mapping in the D region of the MHC but probably different from Rmv3 controls the response of a subset of anti-FMR CTL restricted by the H-2K^k antigens, with higher response in H-2D^d than in H-2D^b animals. This observation confirms the existence of H-2D region associated Ir genes regulating the CTL-mediated antitumor immune responses by choosing the subset of responder CTL, and suggests that a fourth H-2-linked gene plays some role in the genetic control of the anti-FMR immune response.     

Herpes-simplex-virus-specific,H-2Dk-restricted T lymphocytes bear receptors for H-2Dd alloantigen

Cytotoxic T lymphocytes generated in the course of an HSV-infection of CBA (H-2 ^k ) mice not only lyse syngeneic, virus-infected target cells but also cross-react with noninfected target cells expressing the D^d alloantigen. On the effector cell level, this alloreactivity is mediated by virus-specific CTL's that are restricted to H-2D^k determinants. On the prekiller cell level, the anti-HSV-reactive T cells exhibiting cross-reactivity for D^d alloantigen could be positively selected on H-2^d spleen-cell monolayers. After differentiation into cytolytic effector cells, target cells expressing D^d alloantigens and syngeneic HSV-infected target were lysed with equal efficiency. The results imply that the phenomenon of H-2-restricted versus nonrestricted T-cell reactivity is not due to distinct T-cell subsets, but rather is dependent on the antigeneic determinants recognized.     

Activation of specific suppressor cells with heat-treated allogeneic tumor cells

The ability of heat-treated allogeneic cells to induce suppressor cells was examined. The tumor cell lines EL-4 (H-2^b) and P815-X2 (H-2^d), were heated to 56 °C for 10 min and injected intravenously into mice of the DBA/2J (H-2^d) and C57BL/6J (H-2^b) strains, respectively. After 4 days, the splenocytes of the treated mice were mixed with normal spleen cells and cultured for 5 days with allogeneic tumor cells. The cytotoxic T-cell response was reduced in cultures of these cell mixtures. An allogeneic difference was required to induce suppression because the syngeneic combination did not induce suppressor cell activity. Furthermore, the induction of cytotoxic T cells to the C118 cell line (H-2^k) was not suppressed by this procedure, which suggests that the suppression was haplotype specific. These suppressor cells were sensitive to anti-Thy 1.2 and complement, cortisone, and cyclophosphamide, but insensitive to irradiation. These are characteristics similar to suppressor cells activated by intact cells. Heat treatment abrogated the tumor cell's ability to induce a proliferative and a primary, but not a secondary, cytotoxic T-cell response. The heat-treated cells also lost their ability to function as cold target inhibitor cells, but retained the same quantity of serologically detected antigens as the intact cells. These results suggest that the serologically detected antigens are responsible for the activation of the suppressor cells of the cytotoxic T-cell response.     

Anti-MHC immunity detected prior to intentional alloimmunization

Cell fusion was performed between spleen cells from young BALB/cBy (H-2 ^d) mice which have never been immunized and SP2/0 mouse plasmacytoma cells. A monoclonal H-2-specific cytotoxic IgM antibody was obtained (By-1) which detected a new public biregional H-2 specificity, H-2.m210. The mcAb By-1 reacted strongly with H-2K^d, D^d, and H-2^s antigens, gave weak cross-reactions with H-2K^k, D^q, H-2^r, and H-2^v antigens and was negative with H-2^b, H-2^f, H-2^p, and H-2L^d antigens. A polymorphic reaction pattern was also observed on a panel of lymphocytes from B 10.W strains. The intriguing finding on this reaction pattern was the reactivity on H-2^d cells, including the syngeneic BALB/cBy and truly autologous cells. As shown by capping and immunoprecipitation experiments on H-2^d cells and by studies on H-2^d-transfected mouse L cells, the target molecules for McAb By-1 were H-2K^d and H-2D^d molecules. The BALB/cBy mouse, from whose spleen cells the McAb By-1 was obtained, survived after the fusion experiment, and serum was examined for the presence of cytotoxic H-2-specific antibodies during the rest of its life. At the time of the fusion, no autoreactive serum antibodies were found, but about 4 months later, we found in the serum of this mouse autoreactive H-2-specific cytotoxic IgM antibodies. The serum antibodies followed the same reaction pattern as that of the McAb By-1. As far as we know, this is the first report of autoreactive H-2-specific antibodies in serum of a mouse which has never been immunized and of the first natural autoreactive H-2-specific monoclonal antibody.Abbreviations McAb monoclonal antibody - MHC major histocompatibility complex - H-2 major histocompatibility complex of mice - CTLs cytotoxic T cells - FMF flow microfluorometry - FITC fluorescein isothiocyanate - LPS lipopolysaccharide W.E. coli 0111:134 - PBS phosphate-buffered saline - Iodogen 1,3,4,6,-tetrachloro-3,6-diphenylglycoluril - GAMIg goat-antimouse immunoglobulin - Staph-A Staphylococcus aureus Cowan I     

Helper cells in the autologous mixed lymphocyte reaction. I. Generation of cytotoxic T cells recognizing modified self H-2

The autologous mixed lymphocyte reaction (AMLR) in mice measures the proliferative response of T cells to determinants on syngeneic non-T spleen cells. Normally, cytotoxic T lymphocytes (CTL) are not generated in this reaction. However, the addition of trinitrophenyl-modified mitomycin C-treated syngeneic T cells (TNP-Tm) to the AMLR results in the generation of TNP-specific CTL but does not alter the proliferative response. Significant cytotoxic activity is not detectable against TNP in association with Ia unless TNP is present on cells bearing those determinants. Thus, if unselected spleen cells are TNP-modified and used as stimulators in the AMLR, the proliferative response is enhanced and CTL are generated that recognize TNP in association with K, D, and I region-encoded determinants. The CTL generated in the AMLR are H-2 restricted and dependent on the presence of adherent cells in the sensitization cultures. The experiments presented here suggest that the AMLR can provide the help necessary for generating cytotoxic T cells in vitro.     

The ability of H-2+ and H-2− cell lines to induce or be lysed by Cytotoxic T cells

We have studied the T cell-mediated lysis of two C58 lymphoma lines: R1(TL⁺), which bears serologically detectable H-2^k and TL1,2,3 antigens, and R1(TL^–), an immunoselected variant which lacks these antigens. Unlike R1(TL⁺) cells, the variant cells are not sensitive to specific lysis by T cells directed against either H-2^k or minor H antigens of C58 mice. An injection of R1(TL⁺) cells into allogeneic H-2-identical or H-2-different mice primes for an excellent secondary cytotoxic response in vitro to R1(TL⁺); but not to R1(TL^–). Immunization in vivo and in vitro with R1(TL)^–) leads to little or no priming or generation of cytotoxic T cells. Both cell lines, however, are sensitive to nonspecific lysis by cytotoxic cells in the presence of PHA or Con A, although even under these conditions, R1(TL⁺) is killed more effectively than is R1(TL^–). We conclude that R1(TL^–) does not express any form of H-2 antigen which can be detected by immunization or by sensitivity to cytotoxic T cells.     

Induction of high-grade anti-tumor immunity by use of a recombinant H-2Kb/avian erythroblastosis virus erbB gene transfectant

Summary The recombinant H-2K^b-erbB gene, encoding for a part of the H-2 class I antigen and the kinase domain of the V-erbB peptide, was successfully introduced into murine mastocytoma P815 variant P1.HTR cells, which resulted in low but significant cell-surface expression of the hybrid gene product. When the chimeric gene transfectant was inoculated into the CDF₁ mice, it soon grew but regressed thereafter. The tumorigenicity of this transfectant was lower than the H-2K^b gene transfectant that expressed the H-2K^b antigen at a comparable level. These CDF₁ mice that had received the chimeric gene transfectant obtained a high-grade anti-tumor immunity against the challenge of a high dose of parental tumor. Corresponding to these observations, anti-tumor cytotoxic T lymphocytes, which lyse parental P1.HTR cells but not syngeneic L1210 or NS-1 tumor cells, were developed in the peritoneal cavity of mice that had been inoculated with the transfectant and parental tumor. Definite antibody activity binding to parental P1.HTR tumor cells was also demonstrated in the sera of these mice, precipitating 40-kDa, 74-kDa and 98-kDa molecules from the surface of the radiolabeled P1-HTR tumor cells. The results suggested that the chimeric H-2-erbB gene transfectant efficiently triggers both cellular and humoral anti-tumor immune responses.     

Analysis of T-T lymphocytes and T-accessory cell interactions using cloned T cells: MHC I restricted cloned T cells activate MHC II restricted T helper cells

We evaluated the role of molecules of the major histocompatibility complex (MHC) involved in the cellular interactions of two T-cell clones by testing the effect of monoclonal antibodies on the responses of the clones in vitro. The two T-cell clones used in the study are specific for minor histocompatibility antigens and restricted to the H-2K^k. In the absence of exogenous IL-2 the clones require the presence of Ia⁺, Thy-1⁻ accessory cells and of Thy-1⁺, Lyt-1⁺2⁻ cells in the irradiated spleen cell suspension used as stimulator. It is also necessary that both the accessory cells and the T cells in the stimulator cell populations are recognized specifically by the clones. Monoclonal antibodies specific for the H-2K product inhibited the lytic effector function of the cytolytic clone. These antibodies when added to cultures of stimulator cells and clones inhibited also the proliferation of this clone and of a nonlytic clone. When antigen recognition was measured by the increase in sensitivity of the clones to IL-2 while confronted with uv-irradiated stimulator cells, both clones were blocked efficiently by anti-H-2K antibodies. Thus, these results suggest that the interaction of monoclonal antibodies with the restricting H-2K molecule is sufficient to block the recognition signal, a prerequisite for proliferation. In contrast, monoclonal antibodies specific for A_αA_β and/or E_αE_β had no effect on cytolysis or on restricted recognition. However, they inhibited the proliferative responses as efficiently as the H-2K specific antibodies. Inhibition by class II-specific antibodies was not abolished when stimulator cell populations were depleted of Lyt-2⁺ cells. The blocking effect, however, was reversed by the addition of IL-2. No inhibition was obtained with antibody specific for E_αE_β when B10.A(4R) spleen cells, which do not express E_αE_β, or when B10.A(4R) accessory cells, which were reconstituted with (BALB/c X B10.A(4R)) F1 T cells, were used as stimulators. Stimulator cells heterozygous for H-2 could be inhibited by antibodies to the parental haplotype not encoded in the clones (H-2K^d). These and previous results suggest that H-2K-restricted minor histocompatibility antigen-specific recognition transmits an activating signal to the clones and to the stimulator cells. The clones probably are induced to express more IL-2 receptors. The stimulator T cells seem to interact through A_αA_β and E_αE_β molecules with syngeneic accessory cells. This interaction results in IL-2 production by the stimulator T cells and thus in the proliferation of the clones.     

Cellular interactions in lymphocyte proliferation: effect of syngeneic and xenogeneic macrophages.

Secondary cell-mediated responses to ectromelia virus infection were studied using an in vitro system. Lymphoid “responder” cells from mice which had recovered from intravenous primary infection at various times prior to sacrifice, were cultured with syngeneic, virus-infected macrophages or spleen cells as “stimulator” cells at 39 °C, a temperature which prevented the virus from exerting cytopathic effects against responder cells. This restrictive temperature and medium with 2-mercaptoethanol at 10^?4M often gave viable cell yields of more than 100% of the original responder cells over 4 days of culture. Preliminary experiments showed that spleen cells from primed mice, cultured with syngeneic, infected spleen cells from normal mice gave the most powerful secondary cytotoxic cell responses as measured by ⁵¹Cr release from virusinfected H-2-compatible target cells. The cytotoxic cells were sensitive to anti-θ and complement treatment and lysed H-2-compatible, virus-infected target cells much more efficiently than infected, allogeneic target cells, thus indicating that they were T cells. Some activity against uninfected H-2-compatible target cells was also generated, but this was largely independent of the presence of virus-induced antigen, (i.e. infected stimulator cells were unnecessary) and therefore seemed to be a consequence of the cultural conditions. Cold target competition showed that this activity was the responsibility of a T cell subset separate from the virus-specific cytotoxic T cells. The peak of cytotoxic activity against virus-infected targets occurred at 4 days of culture and DNA synthesis was maximal on day 3. The concentration of cytotoxic T cells at the peak was eight-fold higher than at the peak of the splenic primary response in vivo, Memory T cells (precursors of secondary cytotoxic T cells) appeared in spleen within 12–14 days of primary infection in vivo, reached a plateau at 5–6 weeks and persisted for at least 16 months. Spleen cells appeared partly refractory to secondary stimulation in vitro at 8–10 days post-priming. This did not seem to be due to cellular migration from spleen to lymph nodes or peritoneal cavity, but its cause was not determined. Primary responses in vitro were not detectable under conditions optimal for secondary responses, thus suggesting a major quantitative, or qualitative difference between virgin and memory T cells.     

The cell-mediated immune response to ectromelia virus infection. I. Kinetics and characteristics of the primary effector T cell response in vivo.

The cell-mediated immune (CMI) response to ectromelia virus infection in mice was studied. Virus doses from 4 × 10² up to 5 × 10⁴ PFU of an attenuated strain inoculated intravenously (iv) all induced cytotoxic T cell responses in the spleen as measured in a ⁵¹Cr release assay using virus-infected target cells. Higher virus doses gave larger responses. There was little variation between individual animals, and mice ranging in age from 4–22 weeks gave similar responses. Following iv infection, virus grew logarithmically in spleen for 2 days, then titers declined to undetectable levels by day 5. The peak of the virus-specific cytotoxic T cell response occurred at 5–6 days post-infection, as determined by calculation of effector units based on a linear log-log relationship between killer cells added and targets lysed. T cells responsible for virus clearance in vivo gave similar kinetics, suggesting the possibility that both functions are mediated by the same T cell subset. Two other categories of cytotoxic activity were also generated at low levels in the spleen during ectromelia infection or during infection with a bacterium, Listeria monocytogenes. These activities were significantly sensitive to anti-δ and complement treatment, suggesting T cell dependence, but participation of other mechanisms has not been rigorously excluded. One category lysed allogenic target cells and reached a peak at 4 days post-infection. The other lysed H-2-compatible cells, syngeneic embryo cells, and some syngeneic tumor cells but not syngeneic macrophages, and was present at similar low levels through days 1–4. These different kinetics and evidence from “cold” target competition experiments suggested that the total cytotoxic activity of immune spleen cell populations was a composite of the activities of separate cellular subsets (probably mainly T cells), killing of any one target cell type being the responsibility of a subset with receptors at least partly specific for antigens on that target cell.     

Correlation of Qa-1 determinants defined by antisera and by cytotoxic T lymphocytes

Cytotoxic T lymphocytes (CTL) activated in H-2 identical, Qa-1 disparate mixed leukocyte cultures recognize H-2-nonrestricted target antigens indistinguishable by strain or tissue distribution from serologically defined Qa-1 antigens. Cloned Qa-l-specific CTL define determinants encoded by four Qa-1 genotypes; we used anti-Qa-1 sera in antibody blocking experiments to determine if these determinants reside on molecules recognized by Qa-1-specific antibodies. Antisera containing Qa-1.1-specific and TL-specific antibodies blocked recognition of two CTL-defined determinants associated with Qa-1 ^a . Although both Qa-1 and TL molecules are expressed on activated T cells from appropriate strains, our studies indicated that the CTL recognized Qa-1, not TL. In addition, anti-Qa-1.2 serum inhibited CTL recognition of Qa-1^b- and Qa-1^c-encoded determinants. Qa-1 ^d target cells are unique in that they express determinants recognized by anti-Qa-1^a CTL and by anti-Qa-1^b CTL. Killing of Qa-1 ^d targets by anti-Qa-1^a CTL was not inhibited by anti-Qa-1.1 serum, but was partially inhibited by anti-Qa-1.2 serum. Cytotoxicity of Qa-1 ^d cells by one anti-Qa-1^b CTL clone was inhibited by both anti-Qa-1.2 and anti-Qa-1.1 sera, indicating close association of both serological determinants with the determinants recognized by the CTL. Thus, all of the CTL-defined Qa-1 determinants resided on molecules recognized by Qa-1-specific antibodies, but anti-Qa-1^a CTL and Qa-1.1-specific antibodies did not have identical specificities.Abbreviations used in this paper B6 C57BL/6J - CAB concanavalin A stimulated lymphoblasts - CML cell-mediated lympholysis - CTL cytotoxic T lymphocyte - NMS normal mouse serum - MHC major histocompatibility complex - MLC mixed leukocyte culture - MR maximum release - SMDM supplemented Mishell-Dutton medium - SR spontaneous release     

H-2 haplotype specificity of molecular requirements for trinitrophenyl recognition by anti-hapten cytotoxic T lymphocytes

The requirement of direct covalent association of trinitrophenyl (Tnp) groups with cell surface components for functional interactions with anti-Tnp cytotoxic T lymphocytes (CTLs) was analyzed. The question was approached by comparing three different methods of modifying target cells with Tnp groups and analyzing the ability of three anti-Tnp effector populations with different H-2 haplotypes (H-2^k, H-2^d, and H-2^b) to lyse the syngeneic Tnp-modified cells. All effector cell populations were able to lyse in an H-2 restricted manner the appropriate target cell modified with 2,4,6-trinitrobenzenesulfonic acid. As previously shown, H-2^k anti-Tnp CTLs exhibited true H-2 restriction while H-2^d anti-Tnp and H-2^b anti-Tnp CTLs lysed the haptenated syngeneic target cell preferentially but not exclusively. Cells modified by either trintrophenylated bovine serum albumin (Tnp₃₅-BSA) or trinitrophenylated Sendai virus (Tnp-SV) were rendered susceptible to lysis depending upon the H-2 haplotypes of the target cells and the anti-Tnp effector cells. H-2^k anti-Tnp CTLs were able to lyse H-2^k target cells modified with either Tnp₃₅-BSA or Tnp-SV; however, H-2^d anti-Tnp or H-2^b anti-Tnp CTLS did not significantly lyse the H-2^d or H-2^b target cells modified by either Tnp₃₅-BSA or Tnp-SV. The results suggest that Tnp groups not covalently linked with cell surface specific components can be recognized by H-2^k anti-Tnp CTLs, but not by H-2^d or H-2^b anti-Tnp CTLs.     

Anti-H-2 antibodies induced by syngeneic immunization

Alloreactive cytotoxic antibodies were induced in BALB/c mice by syngeneic immunization with normal lymphoid cells. Sixteen out of 41 mice produced antibodies with distinct anti-H-2 specificity. Anti-K^k antibodies were present in all positive sera, but the individual sera produced different reactivity patterns when tested on a panel ofH-2 haplotypes. Absorption and immunoprecipitation experiments confirmed the H-2 specificity of the syngeneic sera. We hypothesize that virus-modified H-2^d structures have triggered alloreactive B-cell clones to produce anti-H-2 antibodies.     

Expansion of tumor-specific cytolytic T lymphocytes using in vitro restimulation with tumor-specific transplantation antigen

Tumor-specific T lymphocytes (CTL) induced by in vivo immunization of C3H/HeJ mice with the syngeneic methylcholanthrene (MCA)-induced fibrosarcoma MCA-F were expanded in vitro by restimulation with 1-butanol-extracted, isoelectrophoretically purified, tumor-specific transplantation antigen (TSTA) in combination with purified rat interleukin-2 (IL-2) and fresh, syngeneic, 2000-R-irradiated, adherent splenic antigen-presenting cells (APC). The cultured immune T-cell population, containing 40–55% Lyt 2⁺ and 40–60% L3T4⁺ cells, displayed TSTA-specific proliferative and cytotoxic activities in vitro. The expanded T cells appear to recognize butanol-extracted TSTA in association with specific H-2 class I antigens, as revealed by the benefit of syngeneic over allogeneic cells as APC and by the adverse effect of depletion using anti-H-2K, but not anti-Ia, monoclonal antibodies. In adoptive transfer assays in vitro, expanded T cells specifically neutralize homotypic, but not heterotypic, tumor growth in vivo. Based upon the effects of depletion of T-lymphocyte subpopulations using monoclonal antibodies, the Lyt 2⁺ cytotoxic T lymphocytes (CTL) appear to display greater in vivo neutralizing activity than L3T4⁺ T cells. Thus in vitro stimulation of in vivo-immunized T cells, using butanol-extracted TSTA in combination with IL-2 and syngeneic APC, expands tumor-specific CTL.     

Expression of subregion and haplotype preference for H-2Kk restricted cytotoxic T-cell responses in vivo and at the level of the precursor frequencies

Several strains of mice bearing the H-2K^k allele were found to generate in vivo strong CTL responses against TNP-haptenated syngeneic cells, while several other strains of mice were found to generate comparably weak or no responses. C3H × DBA/2)F1 mice (H-2^k × H-2^d) and A/J mice with the recombinant haplotype $\text{H-2}{}^{\mathrm{<mtext>k</mtext><mtext>d</mtext>}}$ generated CTL responses in vivo that were completely restricted toward the H-2^k haplotype or the K end of the $\text{H-2}{}^{\mathrm{<mtext>k</mtext><mtext>d</mtext>}}$ haplotype, respectively. The CTL activity of C3H × DBA/2)F1 and A/J mice against haptenated H-2^k targets was found to be more than 25-fold higher than the CTL activity on H-2^d targets. The CTL responses in vitro under macroculture conditions showed, on the other hand, only a 3- to 6-fold higher cytotoxic activity against the haptenated H-2^k targets as compared with haptenated allogeneic or H-2^d targets; and limiting dilution experiments in microcultures revealed that the CTL precursor frequencies were only 2- to 3-fold smaller for TNP-haptenated H-2^d or haptenated allogeneic targets than for haptenated H-2^k target cells. This indicated that sufficient numbers of H-2^d-restricted and allorestricted CTL precursors were actually present in these strains, but did not develop detectable cytotoxic activity in vivo. The exceptional property of the H-2^k haplotype is, therefore, only partly determined by a difference in the CTL precursor frequencies, and to the larger extent determined at the level of the activation of the CTL response.     

Transplantation antigen expression on murine trophoblast detection by induction of specific alloimmunity

Cell-mediated immune responses to murine embryonic trophoblast cells were investigated using lymphocyte trophoblast cultures (LTC) and cell-mediated lympholysis (CML). Spleen cells from CBA (H-2^k) or C57BL/6 (H-2^b) mice hyperimmunized with 3.5-day-old Balb/c (H-2^d) blastocysts did not undergo DNA synthesis after in vitro exposure to Balb/c blastocyst outgrowths nor were cytotoxic lymphocytes (CTL) generated against H-2^d alloantigens. Splenocytes from Balb/c mice presensitized with semiallogeneic (Balb/c female × C57BL/6 male) trophoblast cells derived from 17- to 20-day placental tissue expressed a weak proliferative response in the presence of semiallogeneic placental trophoblast and produced a moderate number of CTL against H-2^b (paternal strain) alloantigens when compared to mixed lymphocyte cultures (MLC) between Balb/c responder and semiallogeneic (stimulator) spleen cells. CTL were also generated in vitro after splenocytes from Balb/c mice hyperimmunized with semiallogeneic spleen cells were restimulated in vitro with placental trophoblast cells. These studies showing that early-stage trophoblast cells fail to evoke transplantation immunity and placental trophoblast is capable of generating alloimmunity only after combined in vivo hyperimmunization with in vitro restimulation suggest that these trophoblast cells are poorly immunogenic due in part to the relatively weak functional expression of major transplantation antigens.     

MHC recognition by clones of Mls specific T-lymphocytes

To test whether M1s determinants, like other non-MHC or nominal antigens, are recognized by T-cells in association with H-2 determinants, the in vitro proliferative responses of T-cell lines and clones were studied. Lines and clones were prepared by soft agar cloning (B10.BR x BALB/c)F₁ (H-2^k/H-2^d, M1s^b/M1s^b) T-cells responding in a primary MLR to AKD2F1 (H-2^k/H-2^d, M1s^a/M1s^a) stimulator cells. All the T-cell clones obtained could respond equally well in a proliferative assay to the Mls^a determinant in association with the H-2 haplotype of either parent, i. e., DBA/2 (H-2^d, M1s^a), and AKR (H-2^k, M1s^a) both stimulated equally well. When the T-cell lines and clones were screened against stimulators from recombinant inbred (RI) strains, it became apparent that strains exhibiting the H-2^b, M1s^a genotype stimulated poorly or not at all. This shows that the T-cell response to M1s^a involves MHC recognition, and raises the possibility that the response to M1s^a can involve recognition of H-2 specificities shared between the H-2 ^k and H-2 ^d haplotypes.Abbreviations used in this paper MHC major histocompatibility complex - MLC mixed lymphocyte culture - IL-2 interleukin 2 - Con A concanavalin A - RI recombinant inbred Howard Hughes Medical Institute     

H-2 antigen expression: Loss in vitro,restoration in vivo,and correlation with cell-mediated cytotoxicity in a mouse lymphoma cell line

The susceptibility to cell-mediated cytolysis of cells of the recently developed C57BL/Ka(H-2 ^b ) lymphoma cell line, BL/VL₃, was investigated in allogeneic assays with thymus-dependent lymphocytes (T cells). Compared to EL4, the widely used C57BL/6(H-2 ^b ) lymphoma cell line, BL/VL₃ cells were found to be insensitive to T-cell-mediated lysis as detected by the use of⁵¹Crrelease methods. When used as immunogens in alloreactive combinations with BALB/c(H-2 ^d ) splenocytes as responder cells, BL/VL₃ cells failed to elicit sensitization. Serological tests showed that this cell line had profoundly reduced levels of H-2^b antigens on its surface. When BL/VL₃ cells were reinjected into C57BL/Ka and BALB/c mice, full recovery of H-2^b antigen expression at the cell surface was observed in both syngeneic and allogeneic hosts after only 11 days of in vivo growth. Concomitantly, they acquired the ability to induce cytotoxic responses in allogeneic T cells and became susceptible to their lytic activity. The expression of H-2 antigens on the surface of BL/VL₃ cells is a reversibly modulated function that depends on in vivo growth conditions and is lost in vitro in the absence of immunoselective pressure.