Polymorphism and tissue distribution of maternally transmitted antigen defined by cytotoxic T lymphocyte lines

We have developed cytotoxic T lymphocyte (CTL) lines specific for two determinants of the maternally transmitted antigen (Mta) and have used these CTL lines to study the tissue distribution of Mta. In previous reports, we characterized CTL lines specific for the Mta.1 determinant. Here, we describe CTL lines specific for the newly defined Mta.2 determinant. Mta.2-specific CTL lines lysed target cells from F1 mice of an NZB (Mtf beta) mother but did not lyse target cells from reciprocal F1 mice of any Mtf alpha mother. Backcross mice were used as the source of target cells to demonstrate that the Mta.2-specific CTL were H-2 nonrestricted in their recognition. Mta.-1- and Mta.2-specific CTL lines were used to demonstrate Mta expression on lymphoid cells taken from spleen, thymus, lymph nodes, and bone marrow. In addition, Mta was expressed on cultured cell lines of myeloid, epithelial, and mesenchymal origin. Our results suggest that Mta is not a differentiation marker restricted to lymphocyte subpopulations.     

Cytoplasmic Inheritance of a Cell Surface Antigen in the Mouse

Mta is a cell surface antigen of the mouse and serves as a target for specific T killer lymphocytes. Using a killer cell assay, the antigen has been found in 72 strains of laboratory mice and, with one exception, in all tested samples of mice caught in the wild or bred from such, including Mus molossinus, Mus castaneus and Mus spretus. Five strains of rats, non-inbred NMRI mice, most substrains of NZB mice and the closely related strain NZO are negative for Mta. In reciprocal F₁ crosses between several Mta⁺ and two Mta^- strains, the antigen is maternally transmitted; that is, Mta⁺ females bear only positive offspring, whereas Mta^- females bear only negative offspring, regardless of the genotype of the male. Since 34 foster-nursed mice had the Mta type of their genetic mothers, the factor that determines expression of Mta must be transmitted before birth and not via the milk. The cytoplasmic genes of Mta⁺ strains have been combined with the chromosomal genes of Mta^- strains, and vice versa, by repeated backcrossing. All progeny retained the Mta type of their maternal lines. Thus, the Mta type is determined solely by maternal inheritance and is not influenced by chromosomal genes. We found no evidence of incompatibility between the cytoplasmic factors and nuclear genes of Mta^- and Mta ⁺ strains.     

Dissociation ofH-2 recognition by antibody and cytotoxic T cells of a cloned murine leukemia cell line

The differential expression of H-2 specificities recognized by antibody and by cytotoxic T lymphocytes (CTL) has been studied using a clone (FY7) of the C57BL/6 leukemia cell line FBL-3 (H-2 ^b /H-2 ^b ). Unlike C57BL/10 spleen cells, EL-4 lymphoma cells and Y57-2C leukemia cells (allH-2 ^b /H-2 ^b ), FY7 failed to induce the primary in vitro generation of anti-H-2^b CTL by (B10.A x A)F₁ (H-2 ^a /H-2 ^a or (B10.D2 x BALB/c)F₁ (H-2 ^d /H-2 ^d ) responder spleen cells. In addition, FY7 was not lysed by, and did not competitively inhibit anti-H-2^b CTL. Quantitative absorption tests with H-2K^b and H-2D^b antisera revealed that FY7 expressed these antigens in quantitatively similar amounts to EL-4. The H-2K^b product of FY7 appeared to be identical with that of C57BL/10 spleen cells both in apparent molecular weight and isoelectric point. Yet FY7 failed to inhibit anti-H-2K^b CTL competitively in a cold target inhibition assay. Possible mechanisms are discussed for the lack of T-lymphocyte recognition of the H-2K^b-gene product expressed by FY7.Abbreviations used in this paper CTL cytotoxic T lymphocytes - MHC major histocompatibility complex - MLC mixed lymphocyte culture - PAGE polyacrylamide gel electrophoresis     

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     

Mutations in H-2K b influence the specificity of alloreactive effector cells included in the repertoire of H-2D b -restricted cytotoxic T lymphocytes against Moloney leukemia virus

Moloney leukemia virus-specific cytotoxic T lymphocytes (CTL), generated by secondary in vitro stimulation of spleen cells with syngeneic virus-infected cells, frequently lysed not only syngeneic virus-infected cells, but also noninfected allogeneic target cells. This phenomenon was studied with B6(H-2 ^b ) responder cells and a series of H-2K ^b -mutant responder cells. Thus, B6 Moloney-specific CTL lysed noninfected K ^b -mutant cells, but not B6 cells, whereas K ^b -mutant Moloney-specific CTL lysed noninfected B6 cells and not noninfected cells of the same mutant. Cold-target-inhibition studies showed that the CTL reactions against different allogeneic cells were mediated by different subpopulations of virus-specific CTL: lysis of allogeneic target cells was fully inhibited only by the same allogeneic and by syngeneic virus-infected cells, but not by another allogeneic cell, also lysed by the same effector-cell population. Lysis of syngeneic virus-infected cells could not be inhibited by allogeneic target cells. These data imply that a minority of virus-specific CTL shows cross-reactivity with a given allogeneic target cell. It is concluded that limited amino acid substitutions in the K^b molecule alter the repertoire of Moloney virus-specific CTL, as reflected in alloreactive CTL populations, even though the virus-specific CTL response. of B6 and all K ^b mutants is mainly D^b-restricted. Thus, the development of tolerance to self class-I major histocompatibility complex (MHC) molecules affects the repertoire of self-restricted cytotoxic T cells.     

Cytolytic T lymphocyte-defined retroviral antigens on normal cells: Encoding by the Akv-1 proviral locus

We previously described the generation and specificity of H-2-restricted cytolytic lymphocytes (CTL) directed against tumors induced by AKR/Gross murine leukemia viruses (MuLV). Such anti-AKR/Gross virus CTL demonstrated type specificity; only tumors induced by endogenous MuLV that expressed the Gross cell-surface antigen were lysed. These CTL and their precursor also recognized normal spleen cells from AKR-H-2 ^b , but not AKR-H-2 ^b , Fv-1 ^b mice, however, suggesting that N-ecotropic, retrovirus-associated antigens were primarily involved. Here, expression of these CTL-defined retroviral antigens by H-2^b-positive AKR × C57L recombinant inbred strains was examined by using normal spleen cells as stimulators in the generation of specific anti-AKR/Gross virus CTL. Analysis of the strain distribution pattern of stimulation indicated that a single proviral locus, Akv-1, was primarily, if not entirely, responsible for CTL-defined retroviral antigen expression. The lack of correlation with two other well-defined proviral loci was interesting. Whereas Akv-3 is known to encode a defective virus, Akv-4 has been shown to code for an infectious virus thought to be very similar or identical to that of Akv-1. Although quantitative differences cannot be formally excluded, dose response experiments argued against this possibility and suggested that Akv-1 and Akv-4 may exhibit qualitative differences germane to antiviral CTL recognition.     

Multiple cytolytic T-cell clones with distinct cross-reactivity patterns coexist in anti-self + hapten cell lines

C57BL/10 T cells sensitized with TNBS-treated syngeneic cells and maintained in culture by repeated stimulations exhibit high cytolytic activity toward syngeneic TNBS-treated target cells with marked cross-reactivity on TNBS-treated target cells from mice of independent H-2 haplotypes (ten tested). The analysis of the reactivities of 48 T-cell clones derived by limiting dilution from such T-cell populations revealed three types of cytotoxic T-cell clones: (1) clones restricted by H-2K^b + TNP without cross-reaction on TNBS-treated or untreated target cells of other tested mouse haplotypes; (2) clones that lysed H-2^b + TNP and also TNBS-treated target cells from not more than one, two or three different H-2 haplotypes; (3) clones that lysed untreated H-2^k target cells. No T-cell clone was found to exhibit the wide pattern of cross-reactivity on any TNBS-treated mouse cell, characteristic of the original T-cell populations, indicating that these were composed of individual T-cell clones specific for TNP + private or for TNP + distinct public H-2 determinants. Correlation with described serological public H-2 specificities was possible for some cytotoxic T-cell clone reactivity, but not for others. The general pattern of T-cell reactivity as revealed by clonal analysis in this study, as well as in published work, includes cross-reactions between self H-2^a + X and allogeneic H-2ⁿ + X, between self H-2^a + X and unmodified allogeneic H-2ⁿ, or between allogeneic H-2ⁿ and allogeneic H-2^m + X, and is consistent with the hypothesis that MHC-class restriction is the main rule in T-cell recognition.Abbreviations used in this paper CTL cytotoxic T lymphocyte - TNBS trinitrobenzene sulfonate - TNP trinitrophenyl - TNCB trinitrochlorobenzene - H-2 mouse major histocompatibility complex - IL-2 interleukin 2 - Con A concanavalin A - FCS fetal calf serum - SCA IL-2 containing supernatant - LPS E. coli lipopolysaccharide - X a non-H-2 conventional antigen     

H-2 control of expression of an idiotype shared by normal B cells and a B-cell lymphoma

The spleens of normal B10,H-2 ^a H-44^b p/Wts (2 ^a 4 ^b ) mice; contain cells which, in response to mitogen stimulation, secrete hemolytic antibody specific for a determinant present on both sheep and bromelain-treated mouse erythrocytes. These cells were found to be Ly-1 positive. Approximately 50% of these cells bear surface immunoglobulin (sIg) with the same idiotype as the sIg of a 2^a4^b-derived B-cell lymphoma, CH12. Backcross analysis revealed H-2 control of the frequency of the idiotype-positive B cell. The regulatory gene did not correlate with the Igh-1 allotype, and analysis of 22 inbred mouse strains mapped the gene to the I-E subregion. Surprisingly, only strains homozygous for E ^k expressed the idiotype, and expression was a recessive trait. Possible mechanisms for this control of idiotype expression and its relation to lymphomagenesis are discussed.Abbreviations used in this paper 2 ^a4^b B10.H-2 ^aH-4^bp/Wts - Br-MRBC bromelain-treated mouse erythrocytes - C complement - LPS lipopolysaccharide W - pfc plaque-forming cells - sIg surface immunoglobulin - SRBC sheep erythrocytes - Ts T suppressor.     

Polymorphism of minor histocompatibility genes in wild mice

H-2^b-restricted cytolytic T lymphocytes (CTL) were generated against H-1, H-3, and H-4 antigens and tested against target cells of F₁ hybrids between wild mice and inbred H-2 ^b mice. The congenic strain combinations for the CTL production were such that they tested one allele each at the H-1 and H-4 loci and four alleles at the H-3 locus. Most of the wild mice tested came from Southern Germany, but a few mice came from other European countries and Egypt and Israel. Virtually all wild mice typed as positive with CTL directed against H-3^b and H-4^b antigens; 32% of the F₁ hybrids tested reacted with anti-H-1^cCTL and 9% reacted with anti-H-3^d CTL. The positive results were not caused by cross-reaction with allogeneic H-2 antigens controlled by the major histocompatibility complex (Mhc) genes of the wild mice. At least some of the H-3 and H-4 antigens detected by the CTL in the F₁ hybrid were not identical with antigens of the immunizing strains. These results suggest a relatively low degree of polymorphism of the tested minor H loci in wild mice and further support the notion that minor H loci are unrelated to the Mhc.     

Selective destruction by formaldehyde fixation of an H-2Kb serological determinant involving lysine 89 without loss of T-cell reactivity

In preparation for functional analyses, a study of the binding of H-2K^b-specific monoclonal antibodies (mAb) to formaldehyde (FOR)-fixed H-2^b spleen or tumor cells revealed that three of nine mAb tested had lost reactivity with the FOR-fixed cells, whereas the reactivity of the other mAb generally did not diminish. Comparison of the reactivity of these mAb on untreated H-2K ^bm mutant cells and on FOR-treated H-2K^b cells suggests that for three mAb the total loss of reactivity on the latter could be a consequence of the alteration by FOR of lysine 89, which is substituted by alanine in mutant bm3. H-2KP^b-specific alloreactive polyclonal or monoclonal CTL, all of which had retained reactivity with bm3 target cells, had also retained reactivity with FOR-fixed H-2^b cells as indicated by cold target inhibition studies. The H-2K^b-specific CTL were probably reactive with conformational determinants of H-2K^b, which are dependent on the integrity of both the 1 and the 2 domains of the H-2K^b molecule. Results are compatible with FOR treatment selectively affecting a serological determinant in the 1 domain without affecting conformational-type CTL determinants.Abbreviations used in this paper CTL cytotoxic T lymphocyte - FOR formaldehyde - PBS phosphatebuffered saline - FCS fetal calf serum - mAb monoclonal antibody - TNBS trinitrobenzene sulfonate     

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-linked genes determine the level of the primary in vitro anti-Mls response

The level of cell proliferation and interleukin-2 (IL-2) production observed in an anti-Mls mixed lymphocyte reaction between spleen cells from H-2 compatible, Mls incompatible mouse strains is determined by the H-2 haplotype of the mouse combination. Thus, while AKR (H-2 ^k) spleen cells stimulated strong M1s^a responses in H-2^k responder cells, AKR H-2b spleen cells stimulated no or negligible M1s^a responses in responder cells from H-2 ^bmouse strains. This effect was observed at the levels of IL-2 production and cell proliferation. The magnitude of the response observed using F₁ (H-2 ^k/H-2 ^b) responder cells was found to be a function of stimulator rather than responder cells. The poor stimulatory capacity of AKRH-2 ^bspleen cells was also shown not to be due to the loss of the stimulatory Mls ^aallele during the construction of the congenic strain from AKR and C57BL/6 parental strains. Using stimulator cells from a second series of congenic mice, we found H-2 ^b(strain DLLP) again to represent a poorly Mls^a stimulatory H-2 haplotype. In addition, H-2^q (DBA/1) cells displayed very poor Mls^a stimulatory potential while H-2^d (D1.C) cells were efficient Mls^a stimulators. Again the effect was shown to be at the level of the stimulator cells. In toto, our findings indicate that the H-2 ^kand H-2 ^dhaplotypes encode strong Mls^a stimulatory potential while the H-2 ^band H-2 ^qhaplotypes determine poor Mls^a stimulatory potential in primary in vitro responses, measured as cell proliferation and IL-2 production.Abbreviations used in this paper: CTL cytotoxic T lymphocyte - IL-1 interleukin-1 - IL-2 interleukin-2 - MLR mixed lymphocyte reaction - NMS normal mouse serum     

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     

An unexpectedly labile mitochondrially encoded protein is required for Mta expression

Maternally transmitted antigen (Mta) is a mouse major histocompatibility antigen recognized by cytotoxic T lymphocytes. A role for mitochondria in expression of this class I-like cell surface antigen has been previously established. We now show that a labile product of mitochondrial protein synthesis is required for Mta expression. Reexpression of Mta determinants after enzymatic removal occurred within 24 h, and the regeneration process was sensitive to chloramphenicol (CAP), a selective inhibitor of mitochondrial protein synthesis. Additionally, target cells treated with CAP for as little as 18 h showed diminished expression of Mta. The estimated half-life for Mtf products ranged from 6 to 15 h, less than the half-lives of known mitochondrial translation products. This suggests that the Mtf product is not generated by the normal turnover of stable mitochondrial respiratory proteins. Instead, these results indicate the existence of either labile unknown mitochondrially encoded peptides or a rapid turnover pathway for known mitochondrial products.     

Selective binding of concanavalin A to target cell major histocompatibility antigens is required to induce nonspecific conjugation and lysis by cytolytic T lymphocytes in lectin-dependent cytotoxicity

The exquisite immunological specificity of cytotoxic T lymphocytes-target cell (CTL-TC) conjugation and lysis is overridden in the presence of certain plant lectins. The role of concanavalin A (Con A) in lectin-dependent, CTL-mediated cytolysis (LDCC) has been investigated. Papain-treated TC are refractory to LDCC, but regain susceptibility following a 3-hr incubation without the enzyme. Papain-treated TC allowed to recover in the presence of tunicamycin (TM; an inhibitor of N-linked glycosylation), are totally refractory to LDCC. Refractoriness of TM-treated TC to LDCC is not due to an overall resistance to lysis or to lack of Con A binding, as these cells can be lysed by specifically sensitized CTL or by H-2 antibody and complement and display a sufficiently high Con A-binding capacity, indistinguishable from intact TC, probably through O-linked, cell-surface glycosyl residues. The finding that TC (TM-treated) capable of binding normal Con A quantities cannot, however, engage in lectin-dependent CTL-TC conjugation and lysis indicates that Con A must react selectively with a specific TC-surface component(s), thereby rendering the TC recognizable by effector CTL, rather than by simply bridging ("glueing") CTL and TC. Affinity absorption and elution from Sepharose-Con A beads as well as specific immunoprecipitations by antibodies against cell surface determinants, have shown effective Con A binding to TC surface components of molecular weights corresponding to 45-kDa product of the H-2K and D MHC genes and, possibly, to a 30-kDa component. Antibodies against MHC proteins but not against non-MHC surface proteins of the TC have produced effective inhibition of LDCC. This and previous investigations show that in nonspecific LDCC as in specific CTL-mediated lysis, TC-MHC determinants are involved in signaling TC recognition and lysis.     

Effect of anH-2 mutation on cytotoxic T cell recognition. Specific antigen can determine the pattern ofH-2 restriction

Hz1 (H-2 ^bm1 ) mice, an H-2 mutant strain derived from C57BL/6(H-2 ^b ), were either injected with vaccinia virus or had their spleen cells sensitized in vitro with syngeneic TNP-modified cells. The cytotoxic cells generated were tested for their activity against target cells that were either infected with vaccinia virus, TNP-modified, or both vaccinia infected and TNP-modified.Hz1 anti-TNP cytotoxic cells specifically lysed syngeneic target cells that were trinitrophenylated but not infected with vaccinia virus, while anti-vaccinia cells specifically lysed vaccinia infected target cells but not TNP-cells. Hz1 (H-2K ^bm1 D ^b ) anti-TNP effector cells killed B10.A(5R)-TNP (H-2K ^b D ^d ) targets, indicating that there is cross-reactivity between TNP-H-2K^b and TNP-H-2K^bm1. On the other hand, there is no cross-reactivity between vaccinia-H-2K^b and H-2K^bm1, since Hz1 anti-vaccinia effector cells did not kill vaccinia infected B10.A(5R) targets.Since Hz1 anti-TNP effector cells lysed B10.A(5R) target cells that were first infected with vaccinia virus and then derivatized with TNP, virus does not mask cross-reactive determinants shared by TNP-H-2K^b and H-2K^bm1. Additional experiments showed that Hz1 anti-TNP effector cells lysed TNP-modified and vaccinia infected B10.A(5R) target cells irrespective of the virus concentration used for infection or the time of addition of virus. Further, there are no detectable quantitative differences between C57BL/6 and Hz1 anti-TNP effector cells in their ability to kill TNP-5R targets.The cytotoxic effect of Hz1 anti-TNP effector cells on B10.A(5R)-TNP targets could not be blocked with TNP derivatized inhibitor cells that carry theH-2D ^d region allele. Thus, the ability of anti-TNP H-2K^b effector cells to cross-react with H-2K^bm1 cannot be explained by a cross-reaction between H-2K^bm1 and H-2D^d.Abbreviations used in this paper TNP trinitrophenol - PFU plaque forming unit - Con A Concanavalin A - BSS balanced-salt-solution - FCS fetal calf serum - TNBS trinitrobenzene sulfonic acid - PBS phosphate-buffered-saline     

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.     

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.     

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.     

Cell-mediated cytotoxicity to non-MHC alloantigens on mouse epidermal cells

Mice of the C3H/He and A non-H-2 backgrounds are disparate from mice of the B10 background for the tissue-restricted, non-H-2 alloantigen of epidermal cells (EC), Epa-1, that is expressed by EC but not by lymphocytes (LC), as well as for a number of other alloantigens of the B10 background that are expressed by both EC and LC, generically referred to as lymphocyte/epidermal alloantigens (LEA). In this study, we compared the ability of various H-2 congenic strains on the C3H or A backgrounds to mount cytotoxic T-lymphocyte (CTL) responses to EC from H-2 compatible mice of the B10 background. High responses to Epa-1 were detected only in the H-2 ^aand H-2 ^khaplotypes; H-2 ^b, H-2 ^o1, H-2 ^s, H-2 ^t1, and H-2 ^t2 haplotypes were nonresponders to Epa-1. High responses to LEA were detected in H-2 ^a, H-2 ^b, H-2 ^s, H-2 ^t1, and H-2 ^t2 haplotypes; H-2 ^kand H-2 ^o1 were nonresponsive to LEA. Analysis of the H-2K, I and D region alleles of responders indicates that H-2K ^kis essential for anti-Epa CTL responses, whereas D ^d, D ^b, or K ^swere all permissive for strong anti-LEA responses. The ability to mount a given CTL response was not associated with differences in I-region alleles. These results are discussed in terms of K/D region products serving as Ir-gene products for CTL and in determining the apparent tissue-specificity of CTL.