Enhanced H-2 expression and T-cell-dependent rejection after intracerebral transplantation of the murine lymphoma YAC-1

The relationship between MHC class I (H-2) expression and tumorigenicity was investigated after intracerebral inoculation of the murine lymphoma YAC-1 and its H-2 negative variant, A.H-2-. YAC-1 was less tumorigenic than A.H-2- in normal as well as NK-depleted syngeneic A/Sn mice. However, in T-cell-depleted syngeneic mice YAC-1 was as tumorigenic as A.H-2-. Following intracerebral growth, the H-2 expression of YAC-1 was markedly enhanced in a similar fashion as after intraperitoneal passage. The A.H-2- variant remained H-2 negative after intracranial passage. The H-2 negative variant cells were not rejected from the brain even when intermixed with wild-type YAC-1 cells prior to intracerebral inoculation, excluding an "innocent bystander" effect. In vitro, the intracerebrally passaged YAC-1 line showed enhanced sensitivity to lysis by H-2 Kk Dd (H-2a) specific CTLs but decreased sensitivity to NK cells. The A.H-2- line was unchanged. Our data suggest that the lack of H-2 molecules may facilitate the growth of antigenic tumor cells in the brain due to escape from T-cell-mediated immunosurveillance. Our data also suggest, in line with other recent findings, that intracerebrally growing tumor cells are sheltered from NK cell-mediated rejection.     

Transfection of beta 2-microglobulin restores IFN-mediated protection from natural killer cell lysis in YAC-1 lymphoma variants

A beta 2-microglobulin (beta 2m)-deficient variant of YAC-1, A.H-2-, was transfected with a genomic beta 2m clone. Transfected cells were used to investigate the role of beta 2m in IFN-induced protection from NK cell lysis. IFN-gamma treatment of the NK-sensitive murine YAC-1 lymphoma results in reduced sensitivity to NK cell-mediated lysis in parallel with increased expression of its constitutively low MHC class I expression. It was previously shown that the A.H-2- variant had lost both these capacities, although it retained other responses to IFN-gamma. Here beta 2m transfection restored the YAC-1 phenotype with respect to an inducible expression of MHC class I molecules and a concomitant protection from NK cell lysis after treatment with IFN-gamma. In the absence of IFN-gamma the NK sensitivity of the transfectants did not differ significantly from A.H-2-. A similar protection from NK cell lysis, in parallel with enhanced MHC class I expression, was observed for in vivo-passaged beta 2m transfectants whereas no protection was found for in vivo-passaged A.H-2- cells. The present study provides evidence that the IFN-gamma-mediated protection from NK cell lysis is dependent on beta 2m expression in the YAC-1 lymphoma. Restoration of MHC class I assembly, transport, and concomitantly an IFN-gamma augmentable cell surface expression of MHC class I molecules is a possible explanation for the effect of beta 2m.     

H-2 antigen expression and sensitivity of BL6 melanoma cells to natural killer cell cytotoxicity

The sensitivity of H-2b-high and H-2b-low variants of BL6 melanoma to the cytotoxic action of NK and lymphokine-activated killer cells was investigated. BL6 mouse melanoma cells lack detectable H-2Kb and had low levels of expression of H-2Db Ag. The BL6T2 variant cells, obtained after treatment of BL6 cells with mutagen N-methyl-N-nitro-N'-nitro-soguanidine, had relatively high levels of expression of class I H-2b Ag. Poly(I:C)-stimulated spleen cells of nude mice were highly cytotoxic for BL6T2, whereas H-2b-low BL6 cells were less sensitive to NK activity in an 18-h 51Cr-release assay. Similar results were obtained after 4-h incubation of radio-labeled tumor cells with IL-2-activated effector cells. In contrast, both lines were equally sensitive to lysis by purified granules derived from rat large granular lymphocytes (LGL) or by macrophages. By using various clones selected from BL6 or BL6T2 cells, it was found that BL6 or BL6T2 clones with low H-2b Ag expression were less sensitive to lysis by NK cells than H-2b-high clones. After IFN treatment of either BL6 or BL6T2, the target cells became more resistant to lysis by either NK cells or by purified LGL granules. IFN-treated BL6 cells had substantially increased expression of H-2b Ag and in this respect became similar to untreated BL6T2. However, IFN-treated BL6 cells were more resistant than BL6T2 cells to lysis by NK cells and LGL granules, suggesting that augmentation of H-2b Ag expression and NK resistance could be two independent IFN-induced effects. With a cold target inhibition assay, it was found that BL6T2 or its H-2 positive clones were highly competitive and inhibited the cytotoxic activity of NK and lymphokine-activated killer cells against radiolabeled YAC-1 and BL6T2, whereas BL6 cells or H-2-negative clones of BL6T2 and BL6 lines showed poor competitive ability. Thus, our data indicate that the NK resistance of H-2-low BL6 cells may be due to a paucity of NK recognizable determinants. N-Methyl-N-nitro-N'-nitroguanidine treatment of BL6 melanoma cells was associated with an increase in class I H-2b Ag expression and NK sensitivity, suggesting the involvement of class I MHC Ag in the sensitivity of tumor cells to NK cell-mediated cytotoxicity.     

Increased sensitivity to MHC-nonrestricted lysis of BL6 melanoma cells by transfection with class I H-2Kb gene

An H-2Kb- negative clone of BL6 melanoma (BL6-8) was transfected with neor, H-2Kb, or H-2IAk genes. In an 18-h cytotoxicity assay clones with high levels of H-2Kb Ag expression were found more sensitive to lysis by spleen cells of syngenic and allogeneic mice than H-2Kb low clones. NK cells were involved in the lysis of H-2Kb+ BL6 melanoma clones, with spleen cell cytotoxicity of mice increased after poly I:C stimulation or decreased after pretreatment with anti-asialo GM1 serum or NK1.1 mAb. Anti-TNF Ab were also able to reduce the cytotoxicity of normal spleen cells and completely abolished the cytotoxicity of the NK-depleted spleen cells suggesting involvement of NC cells in lysis of H-2Kb+ BL6 melanoma clones. Increase in sensitivity of H-2Kb+ BL6 cells to natural cell-mediated cytotoxicity was associated with the appearance of NK recognizable determinants as assessed by the cold target inhibition assay. All BL6 clones, irrespective of sensitivity to natural cell-mediated cytotoxicity, showed high sensitivity to lysis by LGL-derived granules. In contrast, all H-2Kb low BL6 clones were resistant and all H-2Kb highly positive clones were sensitive to lysis by TNF-alpha. When an H-2Kb highly positive clone was selected in vitro for resistance to TNF, it concomitantly showed increased resistance to cytotoxicity by spleen cells, confirming the importance of TNF in spleen cell cytotoxicity against H-2Kb+ melanoma cells. Taken together, the data indicate that class I H-2Kb but not class II H-2IAk gene product could increase the sensitivity of BL6 cells to lysis by NK and natural cytotoxic cells as well as TNF. We hypothesize that these effects could be due to pleiotropic effects of H-2Kb gene products on various biologic properties of BL6 melanoma cells some of which may be more directly involved in regulation of tumor cell sensitivity to lysis by NK and/or natural cytotoxic cells.     

Reduced humoral and cellular cytotoxic sensitivity in major histocompatibility variants of the YAC (Moloney) lymphoma

Previously we have reported that two sublines of the YAC lymphoma selected for reduced expression of H-2^a and Moloney-virus determined cell-surface (MCSA) antigens are, in contrast to YAC, allotransplantable in H-2-incompatible recipients, and resistant to rejection by preimmunized semisyngeneic hosts. A third YAC variant with reduced MCSA but unchanged H-2-antigen expression, was not allotransplantable and showed only a slight decrease in its immunosensitivity in preimmunized semisyngeneic hosts in vivo. This suggested that H-2-antigen expression may be more important than MCSA expression for recognition and rejection by semisyngeneic mice. We have now tested the sublines expressing low H-2^a for their in vitro sensitivity to humoral and cell-mediated lysis. — The variants were more resistant than YAC to complement lysis by anti-H-2^a, anti-MCSA, anti-Thy 1.2 and antispecies sera. Absorption tests with antispecies serum indicated that the decreased cytolytic sensitivity of the variants was not related to the concentration of the relevant antigens, which was similar to that of the original YAC tumor. As expected from the low amount of H-2^a the variants showed a decreased sensitivity to the killing effect of allogeneic cytotoxic T lymphocytes (CTL). They were also lysed to a lesser extent than YAC by semisyngeneic CTL, probably directed against virally determined antigens. However, they were also less sensitive to lysis by natural killer (NK) cells, although NK lysis is probably unrelated to MHC expression. In conclusion, our selection for reduced H-2-expression appears to have resulted in the isolation of variants with a generally increased resistance to various humoral and cell-mediated lytic functions.On leave from Instituto Venezolano de Investigaciones Cientificas (IVIC), Caracas, Venezuela.     

Natural killer cells vs cytotoxic T cells in the peripheral blood of virus-infected mice

The cell-mediated immune response of mice against various enveloped RNA and DNA viruses expressed by immune lymphocytes from the spleen and the peripheral blood (PBL) were compared. PBL from mice of various strains infected with vaccinia virus, vesicular stomatitis virus (VSV), or lymphocytic choriomeningitis virus (LCMV) were tested on histocompatible or incompatible target cells infected with the homologous virus. PBL from immune mice showed clear H-2 restriction, but additionally, they expressed high natural killing (NK) activity on YAC-1 cells. The high NK-cytolytic activity of PBL on YAC-1 differed significantly from that expressed by splenic lymphocytes. In both lymphocyte populations lysis was detected as early as 1 day after infection; NK activity decreased in the spleen after day 4 post infection, whereas that of PBL persisted at high levels for up to 10 days after infection. Treatment of mice with anti-asialo GM1 in vivo abrogated NK activity in PBL effector cells tested in vitro. These results may explain some of the difficulties to observe MHC-restricted cytotoxic T cells in PBL from humans or primates during primary infections with virus.     

Purification and target cell range of in vivo elicited blast natural killer cells

Blast natural killer (NK) cells were elicited in the spleens of mice by treatments with the interferon inducers lymphocytic choriomeningitis virus (LCMV) or polyinosinic-polycytidylic acid (poly I:C). The blast-NK cells, separated on the basis of size by centrifugal elutriation, were compared with blast cytotoxic T lymphocytes (CTL) generated during infection with LCMV. In vivo treatments with antibody to asialo GM1 (AGM1) blocked the appearance of blast-NK cells but not blast-CTL. Antibody and complement depletion experiments indicated that the blast-NK cells were AGM1+, NK 1.2+/-, Lyt-5+/-, Thy+/-, Qa-5/NK 1.1+, Lyt-2-, B23.1-, and J11d-. Blast-NK cells could be unequivocally distinguished from blast-CTL, because the blast-CTL were completely sensitive to treatments with anti-Lyt-2 and complement, whereas the blast-NK cells were completely resistant. The blast-NK cells were purified from populations of large-size cells by antibody and complement treatments that depleted the co-eluting monocyte/macrophages and polymorphonuclear leukocytes. The population resulting after separation from dead cells over Percoll gradients represented approximately 1% of the total spleen cells, contained greater than 60% large granular lymphocytes and mediated greater than 15% killing of YAC-1 target cells in a 4-hr 51Cr release assay at an effector to target cell ratio of 1:1. The purified blast-NK cells lysed a broad range of target cells at relatively low effector to target cell ratios. The order of sensitivity of the target cells was YAC-1 much greater than K562 approximately equal to L-929 much greater than P815, consistent with that reported for NK cell-mediated lysis. The ability of the blast-NK cells to mediate lysis of NK cells also was examined. The purified NK cells mediated significant levels of lysis against the NK-like cloned line, NK1B6B10, in a 51Cr release assay. Furthermore, the purified blast-NK cells mediated lysis of bound blast-NK cells in a single-cell agarose assay. These results indicate that highly purified blast-NK cells are exceptionally efficient at mediating lysis and suggest that NK cells may act to negatively regulate the proliferation of NK cells by lysing other NK cells.     

An oligosaccharide biosynthetic defect in concanavalin A-resistant Chinese hamster ovary (CHO) cells that enhances NK reactivity in vitro and in vivo

We have examined a concanavalin A-resistant (Con AR) Chinese hamster ovary cell (CR-7) that has a defect in the synthesis of asparagine-linked oligosaccharides and consequently an altered expression of membrane carbohydrate. The CR-7 mutant, which has a decreased ability to incorporate mannose into oligolipid and membrane glycoprotein and an increased membrane fucose, was more sensitive to natural killer (NK) cell lysis than the parental wild type (CHO-WT). Splenocytes mediating the lysis of the CR-7 line were asialo GM1+, nonadherent, IFN stimulatable, absent in the bg/bg mutant, and co-fractionated on Percoll density gradients with cells mediating lysis of the YAC-1 murine lymphoma. The increase in NK lysis correlated with enhanced binding of NK cells to the mutant determined by adsorption on tumor monolayers, cold target inhibition, and target binding analysis. A revertant of CR-7 (RCR-7), which showed wild-type levels of NK lysis, was intermediate in its ability to bind or cold target inhibit NK cells. The CR-7, CHO-WT, and RCR-7 lines were equally sensitive to hypotonic lysis and cytotoxicity by human lymphokine-activated killer (LAK) cells suggesting that the mutation did not nonspecifically alter membrane fragility. The NK-sensitive CR-7 line was less tumorigenic after subcutaneous injection in nude mice when compared with the parental CHO-WT or RCR-7 lines. This decreased tumorigenicity could be reversed by the i.v. injection of antiserum directed at the NK cell determinant asialo GM1. In conclusion, a ConAR tumor cell with a demonstrable oligosaccharide biosynthetic defect, exhibited enhanced NK lytic sensitivity and was poorly tumorigenic in vivo, a feature which may also be a consequence of its altered NK reactivity.     

Lysis of uninfected and virus-infected cells in vivo: a rejection mechanism in addition to that mediated by natural killer cells

To examine the lysis of virus-infected cells in vivo, uninfected and lymphocytic choriomeningitis virus (LCMV)-infected L-929 cells were labeled in vitro with [125I]-iododeoxyuridine and implanted intravenously into mice. Natural cytotoxicity against both uninfected and virus-infected cells was demonstrated in normal uninfected mice, but LCMV-infected cells were cleared from the lungs and whole bodies more rapidly than uninfected cells. Treatment of L-929 cells with defective interfering LCMV inhibited standard virus synthesis and protected the target cells from enhanced in vivo rejection. The in vivo rejection was apparently mediated by a cellular constituent of the host immune response and not simply a result of virus-induced cytopathic effects on the target cell, as hydrocortisone acetate and cyclophosphamide each reduced rejection of both target cell types and eliminated the enhanced rejection of LCMV-infected cells. The enhanced rejection of LCMV-infected cells was not restricted by histocompatibility antigens, indicating that classic T-cell recognition was not involved in the lysis, and since the enhanced rejection of LCMV-infected cells was mediated by mice treated with cobra venom factor, complement was also not involved in the lysis. Although moderate levels of interferon (102 U/ml) were present in the sera and although there was a modest activation of natural killer (NK) cells in the lungs of LCMV-infected cell recipients but not uninfected cell recipients, the enhanced rejection of virus-infected cells did not appear to be NK cell mediated. Normal mice and mice depleted of NK cell activity by in vivo treatment with antibody to asialo ganglio-n-tetraosylceramide ( AGM1 ) rejected uninfected and LCMV-infected L-929 cells similarly. This antibody markedly inhibited the rejection of NK-sensitive YAC-1 cells. In addition to the natural cytotoxicity directed against virus-infected cells, a second nonspecific rejection mechanism appeared in response to treatment protocols which induced interferon. Polyinosinic-polycytidylic acid and infection with LCMV augmented in vivo rejection of both uninfected and LCMV-infected L-929 cells but eliminated the differential rejection of the virus-infected cells. Infection with LCMV also augmented the in vivo rejection of the NK-sensitive target cell, YAC-1. In vivo treatments with anti- AGM1 sera only moderately inhibited the elevated rejection of uninfected and LCMV-infected L-929 cells, indicating that the enhanced rejection of these target cells was predominantly mediated by a mechanism other than that mediated by NK cells.(ABSTRACT TRUNCATED AT 400 WORDS)     

Natural immunity to grafts of FLD-3 erythroleukemia cells by irradiated mice

Mice were irradiated and infused with BALB/c Friend virus-induced FLD-3 erythroleukemia cells. Growth of the cells was estimated by measuring splenic incorporation of 5-iodo-2'-deoxyuridine-125I 5 days after cell transfer. BALB/cJ and C3H mice were 'poor responders' in that FLD-3 cells grew well in their spleens, while mice of other strains were 'good responders', resisting the growth of FLD-3 cells. No H-2 or Fv genetic locus was associated with resistance. Athymic nude mice and mice depleted of marrow tissue by 89Sr or estradiol resisted FLD-3 cells, indicating that the effectors were thymus- and marrow-independent. Silica, carrageenan and Propionibacterium acnes organisms all altered resistance, suggesting a function of macrophages. Neither interferon nor anti-interferon serum treatment altered resistance. Anti-asialo GM1 serum inhibited resistance to FLD-3 cells in vivo and inhibited natural cytotoxic (NC) activity against FLD-3 cells in vitro. NC (FLD-3) activity was greatly decreased in spleens 3 days after irradiation, in contrast with NK (YAC-1) and NC(WEHI-164.1) activities. Moreover, a 3-day delay in infusion of FLD-3 cells 'synergized' with silica in weakening genetic resistance in vivo. Thus, natural immunity to FLD-3 cells in vivo differs from that of genetic resistance to normal bone marrow cell allografts, and the lysis of FLD-3 cells in vitro seems to be mediated by cells which do not easily fit into the definition of natural killer (NK) or natural cytotoxic (NC) cells.     

Interferon and butyrate treatment leads to a decreased sensitivity of NK target cells to lysis by homologous but not by heterologous effector cells

Human K-562 and HHMS cells were pretreated with human recombinant interferon (IFN)-gamma and used as targets in NK assays against human and murine effector cells. A protective effect against NK lysis was observed only in the homologous assay, whereas no change or even a slight increase in NK sensitivity against heterologous effector cells was found. In cold target inhibition experiments IFN-treatment of K-562 cells led to a decrease in their capacity to act as competitors in the homologous NK assay, leaving their inhibitory capacity unaltered in the heterologous assay. In accordance with results observed using human NK targets, murine YAC-1 cells treated with mouse recombinant IFN-gamma did not lose their susceptibility to human NK cells. However, they were markedly less susceptible to lysis mediated by murine effectors. Butyrate, another compound causing decreased sensitivity of K-562 cells for human natural killing, also failed to reduce the susceptibility against murine NK cells. The results indicate that the NK-resistant tumor target phenotype caused by IFN or differentiation-inducing agents can only be detected by homologous but not by heterologous effector cells. This suggests that major differences exist between the inter- and intraspecies NK killing mechanisms.     

Spontaneous loss and subsequent stimulation ofH-2 expression in clones of a heterozygous lymphoma cell line

The expression of H-2K^k antigens in a (C3H × DBA/2)F₁ lymphoma cell line growing in vitro was investigated with monoclonal antibodies specific for a public antigen of theH-2K ^k region (H-2.m3) in fluorescence analysis and microcytotoxicity assays and in cell-mediated cytotoxicity with allogeneically stimulated effector cells. Estimates of relative levels of H-2K^k-antigen expression obtained by the different methods were highly correlated. The uncloned, unselected population gradually lost H-2K^k surface antigen expression under culture conditions. This was due to the appearance of H-2K^k negative variants. Fifteen cloned sublines of a population enriched for cells expressing antigen H-2.m3 in the fluorescence activated cell sorter contained either two distinct populations, one consisting of H-2.m3 negative and one of H-2.m3 positive cells, or consisted of H-2.m3 negative cells only. The expression of the H-2.m3 determinant of H-2K^k paralleled that of other serological H-2K^k determinants and of H-2K^k target determinants for cell-mediated cytotoxicity. In nearly all clones where two populations could be detected, the proportion of H-2.m3 negative cells increased with time in culture. The amounts of H-2K^k antigen expressed by the clones appeared not to be correlated to the amounts of H-2D^k antigens on the cell surface as judged by cell-mediated cytotoxicity.In at least one clone and in the uncloned population, H-2K^k-antigen expression detectable by fluorescence analysis could be stimulated by growing the cells in the peritoneal cavities of (C3H × DBA/2)F₁ mice or by adding mouse interferon preparations to the cell cultures. The increase in susceptibility to cell-mediated lympholysis of cells grown in vivo paralleled the increase inH-2 expression detected by fluorescence. In contrast, cells growing in the presence of interferon in vitro showed reduced sensitivity to lysis by alloreactive lymphocytes, although H-2 antigens were strongly expressed as measured by fluorescence.     

Target cell expression of MHC antigens is not (always) a turn-off signal to natural killer cells

Recent evidence has demonstrated that the lytic function of natural killer cells might be regulated by potential target cells through the target cells' expression of cell surface components that are able to inhibit the lytic process. Specifically, it has been shown in many target cell systems that the expression of class I MHC proteins by target cells is inversely proportional to their susceptibility to lysis by NK cells. It has been suggested, therefore, that MHC proteins may act as important negative regulatory elements in the ongoing control of NK cell function. Herein, we examined two closely related murine lymphoma cells (ASL1 and ASL1w), both in terms of their susceptibility to lysis by NK cells as well as their expression of both H-2K and H-2D class I MHC proteins. The results of these studies showed that whereas ASL1 and ASL1w cells differed greatly in their susceptibility to NK cell lysis (ASL1 was much more NK resistant than ASL1w), both expressed high levels of H-2K and D proteins. In contrast to what might have been predicted base on reports from other target cell systems, the more NK susceptible ASL1w cells expressed somewhat higher levels of H-2K Ag than did ASL1 cells. These results indicate that expression of H-2 class I proteins by target cells, in and of itself, is not sufficient to inhibit the lytic activity of murine NK cells.     

Mouse Hepa-1 tumor is rejected by H-2Db-restricted CTL despite decreased MHC class I antigen expression

It has recently been hypothesized that tumor cells with reduced levels of MHC class I antigens are more susceptible to NK-mediated lysis and are rejected by NK cells, whereas tumor cells with normal levels of class I are rejected by tumor-specific CTL. We have tested this hypothesis using a mouse hepatoma system. The Hepa-1 tumor is a spontaneous H-2Kb loss variant that arose from the BW7756 tumor, when BW7756 was adapted to growth in culture. Our studies have shown that despite the loss of H-2Kb antigen, Hepa-1 is not more susceptible to NK lysis than its H-2Kb-transfected variants. These studies also suggested that NK cells were not responsible for rejection of the Hepa-1 tumor. The Hepa-1 tumor, therefore, appears to contradict the hypothesized linkage of MHC levels and NK susceptibility. Because NK cells are not involved in immunity to this tumor, we have sought to identify the effector cell responsible for Hepa-1 rejection. Cytotoxic T lymphocyte assays demonstrate that in vitro, Hepa-1 cells are lysed by Hepa-1-specific H-2Db-restricted CD4-CD8+ T lymphocytes. Footpad assays demonstrate that in vivo, Hepa-1 rejection requires CD4+CD8- and CD4-CD8+ Hepa-1-primed splenocytes. These results indicate that immunity to Hepa-1 is T cell mediated. Hepa-1 is therefore an example of an unusual tumor in that down-regulation of MHC class I antigen expression is associated with increased CTL susceptibility.     

Inverse relationship in H-2-associated lysis between NK cells and rIL-2-activated killer cells: evidence from in vitro killing and metastatic experiments

We investigated the manner in which rIL-2 induced effectors in vitro (LAK cells), which, like NK cells, lyse targets nonspecifically and discriminate nonself, and how H-2 as the self-marker affects the LAK cell killing mechanism. NK cells showed an appreciably higher killing activity to B16 melanoma H-2- cells than to H-2+ cells. In contrast, LAK cells lysed more efficiently to H-2+ cells. The in vivo experiments showed that the NK cells prevented pulmonary metastasis of B16 H-2- cells in the normal syngeneic host, whereas the transferred LAK cells had a preferential inhibitory effect on the pulmonary metastasis of B16 H-2+ cells in the immunodeficient syngeneic hosts. Taken together, these results show that the H-2-encoded or H-2-associated molecules contribute to the triggering signal in the lysis by LAK cells, whereas the NK cells recognize the reduced self H-2 expression on the targets, thereby contributing to a trigger of the lysis.     

Recognition of Rous sarcoma virus-induced tumor antigens by cytotoxic T lymphocytes (CTL): studies on specificity of killing by CTL employing H-2 congenic and recombinant mouse tumor cells

The specificities of cytotoxic T lymphocytes (CTL) were studied for the analysis of CTL against tumor-specific cell surface antigen(s) (TSSA) of non-virus-producing tumor cells induced by the Schmidt-Ruppin strain of Rous sarcoma virus (SR-RSV) in B10 congenic and recombinant mice. Eight CTL clones were established from immune spleen cells of B10.A(5R) mice. These clones demonstrated six patterns of cytotoxic reactivity in vitro: Two clones showed H-2 restriction in tumor cell lysis. Two other clones had the capacity to lyse syngeneic, H-2K-compatible B10 and H-2-incompatible B10.A(4R) tumor cells, but not YAC-1 cells. One clone had cytotoxic activity against syngeneic, H-2D-compatible B10.D2 tumor cells and YAC-1 cells, but not against H-2-incompatible tumor cells. One clone had cytotoxic activity against syngeneic and YAC-1 tumor cells, but not against either H-2-compatible or H-2-incompatible tumor cells. One clone had lytic activity to syngeneic, H-2-compatible, H-2-incompatible, and YAC-1 tumor cells. Another clone killed H-2-incompatible B10.A(4R) tumor and YAC-1 cells, but not syngeneic or H-2-compatible tumor cells. All these clones strongly expressed surface Thy-1.2 antigens, whereas the expression of Lyt-1.2 and Lyt-2.2 antigens was different from clone to clone. These results demonstrate heterogeneity of both lytic specificity and phenotype of CTL against RSV-induced mouse tumor cells, suggesting the existence of multiple antigenic sites on the RSV TSSA recognized by CTL populations.     

NK-mediated elimination of mutant lymphocytes that have lost expression of MHC class I molecules

Mutant cells generated in vivo can be eliminated when mutated gene products are presented as altered MHC/peptide complexes and recognized by T cells. Diminished expression of MHC/peptide complexes enables mutant cells to escape recognition by T cells. In the present study, we tested the hypothesis that mutant lymphocytes lacking expression of MHC class I molecules are eliminated by autologous NK cells. In H-2b/k F1 mice, the frequency of H-2Kb-negative T cells was higher than that of H-2Kk-negative T cells. The frequency of H-2K-deficient T cells increased transiently after total body irradiation. During recovery from irradiation, H-2Kk-negative T cells disappeared more rapidly than H-2Kb-negative T cells. The disappearance of H-2K-deficient T cells was inhibited by administration of Ab against asialo-GM1. H-2Kk-negative T cells showed higher sensitivity to autologous NK cells in vitro than H-2Kb/k heterozygous or H-2Kb-negative T cells. Adding syngeneic NK cells to in vitro cultures prevented emergence of mutant cells lacking H-2Kk expression but had little effect on the emergence of mutant cells lacking H-2Kb expression. Results in the H-2b/k F1 strain correspond with the sensitivity of parental H-2-homozygous cells in models of marrow graft rejection. In H-2b/d F1 mice, there was no significant difference between the frequencies of H-2Kb-negative and H-2Kd-negative T cells, although the frequencies of mutant cells were different after radiation exposure among the strains examined. H-2b/d F1 mice also showed rapid disappearance of the mutant T cells after irradiation, and administration of Ab against asialo-GM1 inhibited the disappearance of H-2K-deficient T cells in H-2b/d F1 mice. Our results provide direct evidence that autologous NK cells eliminate mutant cell populations that have lost expression of self-MHC class I molecules.     

Distinct phenotypic expression of immunogenicity and immunosensitivity in sublines of a tumor

Continuous in vitro or in vivo passage of a BALB/c leukemia has resulted in generation of 2 immunologically distinct sublines. The subline maintained by in vitro passage failed to stimulate an allogeneic response but was susceptible to lysis by alloreactive cytotoxic cells. Conversely, the subline maintained by in vivo passage induced an allogeneic response but was resistant to lysis by cytotoxic T lymphocytes (CTL) reactive to H-2d antigens. Resistance to lysis occurred despite expression of H-2d antigens in a form recognizable by differentiated alloreactive CTL, as determined by cold-target inhibition experiments. Moreover, resistance was immunologically specific, in that the subline was susceptible to immune lysis mediated through recognition of other determinants. The results imply that the display and/or orientation of antigen in the cell membrane of these sublines that is required for a lytic event is distinct from the antigen expression necessary for immunologic recognition.