Column selection of antigenic variants from tumors. YAC (Moloney) lymphoma variants with reduced antigen expression

Serial pretreatment of YAC lymphoma cells with anti H-2^a serum and anti-Ig column selection to remove cells with high surfaceH-2 concentration, followed by intermittent transfer into mice has led to the establishment of two variant sublines with low H-2^a antigen expression and only a slightly reduced Moloney virus-determined cell surface antigen (MCSA) expression compared to the original YAC line. Both sublines had an increased number of chomosomes with a modal number of 62 and 57, as compared to 39 in YAC. In contrast to YAC, the variants were freely homotransplantable across theH-2 barrier. They also resisted the rejection response of YAC-preimmunized semisyngeneic mice. Parallel selection against MCSA resulted in a variant with reduced MCSA, but unchanged H-2^a expression and karyotype. This subline failed to grow across the allograft barrier, and showed only a slightly increased ability to grow in preimmunized semisyngeneic mice.These results suggest thatH-2 expression may play an important role in the ability of antigenic tumor cells to be rejected in specifically preimmunized, genetically compatible recipients.     

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.     

Antibody-induced redistribution of normal and tumor associated surface antigens

Redistribution (capping) of normal and tumor-associated surface antigens was studied on murine and human cells by the indirect membrane immunofluorescence (MIF) technique. The capping of H-2 isoantigens was compared on normal mouse T-lymphocytes and on YAC cells, a Moloney leukemia virus (MLV) induced lymphoma. H-2 and Moloney virus induced cell surface antigen (MCSA) capping was compared on three YAC lines with different MCSA concentrations. H-2 and tumor-associated surface antigen capping was compared on two polyoma induced sarcoma lines and five methylcholanthrene induced sarcoma lines. In the human system, IgM-capping was compared on normal lymphocytes and on the Burkitt lymphoma derived Daudi line. Capping of HL-A and the Epstein-Barr virus (EBV) determined membrane antigen (MA) was compared on the Burkitt lymphoma derived line Maku and on EBV-superinfected Daudi cells. H-2 antigens on normal murine cells capped more promptly and on a larger fraction of the cell population on the various tumor cells. Surface associated IgM showed a better capping on normal lymphocytes than on Daudi cells. All tumor associated antigens except MCSA, showed good capping. MCSA was almost completely refractory to capping. Increasing concentrations of MCSA appeared to inhibit the capping of H-2 on the YAC sublines with different concentrations of MCSA. The polyoma induced ascites sarcoma (SEWA) did not cap either with regard to H-2 or the polyoma determined surface antigen.     

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.     

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     

Immunoselection of structural H-2Kb variants: Use of cloned cytolytic T cells to select for loss of a CTL-defined allodeterminant

Functional studies concerning the unique interaction between class I H-2 allodeterminants and cytolytic T lymphocyte (CTL) antigen receptors have benefitted from the development of H-2K^b mutant mouse strains and somatic H-2 variants selected with monoclonal antibody. Here, we describe the development of a novel approach to immunoselection of somatic H-2K^b variants employing a K^b-specific CTL clone as the negative selective agent. The rationale for this method is that the use of an alloreactive CTL clone as the selective agent should enable us to detect the emergence of structural K^b variants based on their loss of the relevant CTL-defined allodeterminant. Thus, these structural variants are well suited to an in-depth analysis of the functional relationship between H-2 antigens and receptor recognition by CTL. Using this approach, we successfully isolated two types of structural K^b variants, as well as numerous Kb-loss variants. The functional studies described in this paper indicate that these structural variants exhibit alterations in expression of both CTL-defined and serologically defined H-2K^b allodeterminants. The structural characterization of such variants should enable us to identify the precise amino acid residues responsible for the creation of the relevant CTL-defined K^b allodeterminants.     

YAC-1 MHC class I variants reveal an association between decreased NK sensitivity and increased H-2 expression after interferon treatment or in vivo passage

Two H-2 negative variants of the YAC-1 lymphoma were selected by mutagenization and sequential in vitro selections and compared with wild-type cells for changes in NK sensitivity and H-2 expression after interferon treatment or in vivo passage. The H-2 negative variants and the low H-2 expressor YAC-1 wild-type cells had similar NK sensitivity. However, IFN-beta or recombinant IFN-gamma pretreatments increased the H-2 expression of YAC-1 and protected them from NK lysis, whereas the H-2 variants, which remained H-2 negative, were not protected and often more sensitive to NK lysis. The H-2 variants were similarly susceptible as wild-type cells to three other cellular effects of interferon: protection from virus infection, modulation of Con A capping, and inhibition of cell proliferation. Thus, the only interferon-mediated effect that distinguished the H-2 negative variants from wild-type cells was the inability of the former to increase their H-2 expression and decrease their NK sensitivity. The wild-type YAC-1 line showed increased H-2 expression and decreased NK sensitivity after in vivo passage. In contrast, in vivo passaged H-2 variants showed no reexpression of H-2, and remained NK sensitive. The altered responses to interferon and in vivo passage were specific for loss or down-regulation of H-2, because Thy-1 loss (H-2 positive) YAC-1 variants behaved as the wild-type cells in all respects. This study supports the hypothesis that NK cells may function in vivo to eliminate host cells that fail to express H-2 after interferon stimulation during an immune response; such cells are a potential threat because they may escape recognition by T lymphocytes despite the expression of viral or tumor-associated antigens.     

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.     

Use of hybridoma-resistant variant cell lines to study H-2D b/FMR-specific cytotoxic T cells

An H-2D ^b b heterozygous tumor cell line and a variant subclone bearing a mutant gene product were used to analyze the H-2D^b specificity of cytotoxic T lymphocytes (CTL) generated during a Moloney murine sarcoma virus (MSV) infection. When the mutant cells were used as targets for MSV-specific CTL, the amount of cell lysis, compared with that seen with the nonmutant parental cells, was drastically decreased. However, cells of the mutant clones remained susceptible to allogeneic CTL specific for the nonmutant H-2D^b molecule. The mutant cells also did not differ from the parent cells in their level of viral antigen expression. Biochemically the parental and mutant molecules were similar but not identical. The data indicate that minor alterations of the H-2 antigens caused by somatic mutation may prevent virus-infected cells from being recognized as targets by CTL.     

Lymphocyte-mediated cytolysis of allogeneic tumor cells in vitro. III. Enzyme sensitivity of target cell antigens.

Target tumor cells pretreated with high concentrations of papain or Pronase were resistant to lysis by cytotoxic T lymphocytes (CTL), whereas treatment with trypsin or neuraminidase had no protective effect. Parallel determinations of the H-2 content of target cells following enzyme treatment showed that approximately 80% of surface H-2 was removed by papain or Pronase, 40% by trypsin, and virtually none by neuraminidase treatment. Both susceptibility to lysis by CTL and content of surface H-2 after papain treatment were fully restored by 6 hr at 37 °C in nutrient medium. These findings suggest that lymphocyte-mediated cytolysis (LMC) determinants (target cell antigens bound by CTL) are sensitive to degradation by papain and Pronase but are resistant to the enzymatic action of trypsin and neuraminidase. That a similar pattern of enzyme sensitivity is shown by serologically defined H-2 antigens indicates that both functional classes, LMC and H-2, may have a structural association.     

Cell-mediated immunity to chemically xenogenized tumors I. Inhibition by specific antisera and H-2 association of the novel antigens

Summary T cell-mediated proliferative and cytotoxic responses occur in vitro to syngeneic tumor cells antigenically altered by mutagen treatment. One such xenogenized variant of the murine L5178Y lymphoma elicits IgG antibodies reactive with determinants on variant cells that are not expressed at detectable levels on parental or normal cells of the same H-2^d haplotype and are also unrelated to public specificites of H-2^b or H-2^k histocompatibility antigens. In the present study we investigated the effect of those antibodies on development of cell-mediated responses in vitro to the xenogenized cells used for induction of the humoral response. The proliferative reaction, generation of cytolytic activity and target cell lysis were all inhibited by the anti-xenogenized tumor immune serum, whereas the corresponding reactions to the parental cells by syngeneic or allogeneic effector lymphocytes were not. In order to investigate the possible H-2 association of T cell-mediated responses to xenogenized cells, we also examined the effect on those reactions of antibodies specific for Class I or Class II products of the H-2^d complex. The results obtained suggested a role for I-A^d molecules in the T cell proliferative response to the xenogenized cells, and also indicated a preferential association of the cytotoxic response with H-2K^d determinants.     

Variation of expression of histocompatibility antigens on tumor cells: absence of H-2Kk-gene products from a gross-virus-induced leukemia in BALB.K

The antigenic profile of the K-GV tumor of BALB.K origin, induced by Gross virus and maintained in vitro and in vivo, was investigated by serological and immunochemical methods and techniques of cell-mediated immunity. The H-2K^k-gene products were absent by several criteria: (1) monoclonal antibody and conventional alloantisera directed against the H-2K^k antigenic specificities were nonreactive by direct testing and by absorptions. (2) H-2K^k products could not be precipitated from glycoprotein or protein extracts of the radiolabeled K-GV tumor. (3) Cytotoxic effectors against H-2K^k produced by sensitization in vitro and in vivo failed to kill K-GV target cells. (4) The tumor could neither stimulate BALB.B congenic mice to produce cytotoxic effectors nor specific cytotoxic antibody against H-2K^k-gene products. In contrast, the H-2D^k antigen was readily detectable by all these criteria. These findings therefore describe a tumor which has selectively lost the H-2K-gene products. The K-GV tumor was able to generate Gross-virus-specific CTL, but had greatly reduced susceptibility to lysis by Gross-virus-specific CTL generated by H-2K expressing AKR (H-2 ^k) tumors. These findings have important implications for the associative recognition of tumor antigens and the immune surveillance of virally induced tumors.Abbreviations used in this paper MHS major histocompatibility system - LcH Lens culinaris hemagglutinin - SDS sodium dodecyl sulfate - CTL cytotoxic T lymphocytes - GCSA Gross-virus-induced cell-surface antigen - MuLV murine leukemia virus     

Retrovirus-induced changes in major histocompatibility complex antigen expression influence susceptibility to lysis by cytotoxic T lymphocytes

Retrovirus infection of murine fibroblasts was found to alter the expression of major histocompatibility complex (MHC) antigens. Fibroblasts infected with Moloney murine leukemia virus (M-MuLV) exhibited up to a 10-fold increase in cell surface expression of all three class I MHC antigens. Increases in MHC expression resulted in the increased susceptibility of M-MuLV-infected cells to lysis by allospecific cytotoxic T lymphocytes (CTL). M-MuLV appears to exert its effect at the genomic level, because mRNA specific for class I antigens, as well as beta 2-microglobulin, show a fourfold increase. Fibroblasts infected with the Moloney sarcoma virus (MSV):M-MuLV complex show no increase in MHC antigen expression or class I mRNA synthesis, suggesting that co-infection with MSV inhibits M-MuLV enhancement of MHC gene expression. Quantitative differences in class I antigen expression on virus-infected cells were also found to influence the susceptibility of infected cells to lysis by H-2-restricted, virus-specific CTL. Differential lysis of infected cells expressing varied levels of class I antigens by M-MuLV-specific bulk CTL populations and CTL clones suggests that individual clones may have different quantitative requirements for class I antigen expression. The MSV inhibition of MHC expression could be reversed by interferon-gamma. Treatment of MSV:M-MuLV-infected fibroblasts with interferon-gamma increased their susceptibility to lysis by both allogeneic and syngeneic CTL. The data suggest that interferon-gamma may function in the host's immune response to viral infections by enhancing MHC antigen expression, thereby increasing the susceptibility of virus-infected cells to lysis by H-2-restricted, virus-specific CTL.     

Studies on the induction and expression of T cell-mediated immunity. XIV. Antigen-nonspecific oxidation-dependent cellular cytotoxicity (ODCC) mediated by sodium periodate oxidation of cytotoxic T lymphocytes

Alloimmune murine thymus-derived cytotoxic lymphocytes (CTL) generated in vivo or in vitro are shown to lyse antigen-nonspecific target cells (tumor cells, Con A, and LPS blasts) following treatment of CTL with an oxidizing agent, sodium periodate (NaIO4). It has been shown that NaIO4 oxidizes terminal sialic acid residues of cell surface macromolecules. The presence of reactive aldehyde groups, generated by NaIO4 modification, is required for the expression of antigen-nonspecific cytotoxicity because treatment of modified cells with a reducing agent such as potassium borohydride (KBH4) resulted in the abrogation of cytotoxicity. However, KBH4 treatment of unmodified or NaIO4-modified CTL has no effect on antigen-specific cytotoxicity. The modification of CTL by NaIO4 is sufficient to lead to the formation of lymphocyte-target cell conjugates and lysis of bound targets. Monoclonal antibodies directed against the Lyt-2 antigens of CTL, but not Lyt-1 antigens, in the absence of complement inhibited the nonspecific cytotoxicity resulting from NaIO4 modification of effector lymphocytes. These findings suggest that the mere interaction with or perturbation of appropriate cell surface molecule(s) of effector lymphocytes such as Lyt antigens by receptor-ligand interaction in SCMC or by NaIO4 modification in ODCC may lead to the expression of cytotoxicity. The present studies demonstrate a functional role of surface carbohydrates on CTL in cell-to-cell recognition and interactions. Furthermore, the results suggest that target cell modification is not a requisite for recognition and lysis in an antigen-nonspecific cytotoxic system such as ODCC. However, partial blocking of ODCC by alloantibodies directed against the H-2 of unmodified target cells suggests that NaIO4-modified CTL recognize unrelated target H-2 antigens. The implication of these findings on the molecular mechanism of cell-mediated cytotoxicity is discussed.     

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.     

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     

Continued mapping of chromosome 2 genes

This report describes our continued efforts to elucidate the genetic fine structure of the central portion of the mouse chromosome (Chr) 2. Mice from our panel of 28 Chr 2 congenic strains were tested: (1) for the presence of the antigens which stimulate Chr 2-reactive lymphocyte clones in mixed lymphocyte reactive lymphocyte clones in mixed lymphocyte reaction (MLR); (2) for the antigens of histocompatibility (H) genes H-42 ^a and H-45 ^a as determined by allograft rejection; and (3) for their ability to respond to the H-Y antigen in a cell-mediated lysis assay. The results obtained in this study have allowed additional mapping of immunoogically involved Chr 2 genes. The gene encoding the antigen which stimulates lymphocyte clone 1C11 can be considered wholly different from other Chr 2 H genes on the basis of chromosomal recombination. We have assigned the symbol H-48 to this gene. The following gene order has been established: [H-3, B2m, pa], we, [H-42, H-48], H-45, IR-H-Y, Hd-1, un, H-13, A ^w. The order of the bracketed genes is not known. H-44 maps centromeric to IR-H-Y. The genes encoding the antigens that stimulate lymphocyte clones 2G7, 2C10, 1F6, 1B10, and 1H10 map centromeric to H-45.     

Unglycosylated Mtaa expresses an Mtab-like determinant

Antigenic polymorphism of the class I-like maternally transmitted antigen (Mta) is controlled by a maternally transmitted factor (Mtf) thought to reside in mitochondria. However, the mechanisms by which Mtf generates antigenic polymorphism are not known. To address this issue, we investigated a possible role of post-translational oligosaccharide addition in the formation of Mta determinants. We examined the expression of Mta on cytotoxic T lymphocyte (CTL) target cells cultured in tunicamycin (TM), a known inhibitor of asparagine(N)-linked glycosylation. Of 18 Mta^b-specific CTL lines, 8 lysed TM-treated Mta^a targets. Furthermore, a subclone of one of these eight lines, 17D5.G2, lysed TM-treated targets from all Mta^a strains tested, regardless of H-2K/D haplotype. On the other hand, this CTL clone did not lyse TM-treated target cells from the Mta null, but H-2 expressing strain B10. CAS2. Therefore expression of this Mta^b-like determinant is concordant with the expression of Mta^a and seems unlikely to represent a cross-reactive H-2K/D epitope. Our data suggest that an Mta^b-like determinant is expressed on unglycosylated Mta^a molecules. Thus, N-linked oligosaccharides probably prevent the expression of an Mta^b-like determinant on the Mta^a molecule. We discuss how Mtf may contribute to Mta polymorphism through glycosylation.Abbreviations used in this paper CAB Con A blast - CML cell-mediated lympholysis - Con A concanavalin A - CTL cytotoxic T lymphocyte - DMEM Dulbecco's modified minimum essential medium - FCS fetal calf serum - IL-2 interleukin-2 - LPS lipopolysaccharide - mAb monoclonal antibody - MLC mixed leukocyte culture - mMDM modified Mishell-Dutton medium - Mta maternally transmitted antigen - NK natural killer - sMDM supplemented Mishell-Dutton medium - TM tunicamycin - ₂m beta-2 microglobulin     

The partial isolation of subcellular MHC products which are recognized by alloimmune T lymphocytes

H-2 antigens from three murine tumor-cell lines (YAC, EL-4 and P815) were solubilized with triton X-100 and separated by SDS-polyacrylamide gel electrophoresis. Proteins were eluted from gel slices and assayed for inhibition by a target-effector binding (TBC) assay. Fractions inhibiting alloimmune T cells also contained serologically detectable H-2 molecules as judged by a complement-dependent microcytotoxicity-inhibition assay. Fractions containing Moloney cell-surface antigen (MCSA), gp 71, or p30 did not inhibit alloimmune TBC. H-2 antigens were selective for T cells since they failed to inhibit binding of natural killer (NK) cells to NK-sensitive targets, whereas, in the reciprocal experiment, the NK target antigens inhibited NK cells but not alloimmune T cell binding to intact targets. Cross inhibition tests in the T-cell system revealed that the H-2 molecules maintained their specific antigenic structure. These observations suggest that it will be possible to characterize further those parts of the subcellular H-2 preparations reacting with distinct killer T-cell clones.