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1.
Study ofH-2 mutations in mice   总被引:1,自引:1,他引:0  
The serologically defined H-2.5 specificity was tested on spleen cells and red blood cells (RBC) of theH-2 b haplotype and a number of its mutants. Thebm8 (bh) mutant was barely distinguishable fromb in a variety of tests made. On spleen cells ofbm1 (ba) the H-2.5 specificity seemed to be unchanged, while it was virtually absent from RBC of this mutant. Mutantsbm4 (bf),bm5 (bg1), andbm6 (bg2) were similar tobm1, with slight differences between them. The mutantbm3 (bd) retained an unchanged quantity of H-2.5 on its spleen cells, while the specificity was substantially increased on its RBC. The H-2.5 ofbm3 is not identical to that ofH-2 a . Possible mechanisms causing differential serology of theH-2 b mutants are discussed.  相似文献   

2.
Biochemical analyses of the H-2K-gene products of the C57BL/6 mutant strains, bm3 and bm11, have been carried out in order to characterize the structural relationships among these antigens. From comparative tryptic peptide mapping of cyanogen bromide fragments from the mutant and parent Kb glycoproteins and from preliminary amino-acid sequence analyses, a number of discrete differences have been discerned. Two sites of difference at amino residues 77 and 89 in the Kbm3 glycoprotein are noted relative to Kb. An alteration at residue 77 similar or identical to that seen in Kbm3 is present in the K antigen of thebm11 mutant. Because our techniques sample only 75 to 80 percent of the extracellular portion of H-2Kb, other undetected changes are possible. However, our present findings are most consistent with the conclusion that only very limited differences exist between mutant and parent molecules. Further, taken together with CML (cell-mediated-lymphocytotoxicity) reaction patterns (Melief et al. 1980), the biochemical data support the hypothesis that the proposed structural alterations in theK b mutant glycoproteins are directly related to their observed immunological specificity.  相似文献   

3.
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-2Kb and TNP-H-2Kbm1. On the other hand, there is no cross-reactivity between vaccinia-H-2Kb and H-2Kbm1, 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-2Kb and H-2Kbm1. 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-2Kb effector cells to cross-react with H-2Kbm1 cannot be explained by a cross-reaction between H-2Kbm1 and H-2Dd.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  相似文献   

4.
We have investigated the effect of immune selection against a single gene product on a cultured mouse Friend leukemia cell line. The clonal cell line used is heterozygous at theH-2 complex and expresses theH-2 d andH-2 b haplotypes. The genes selected against were theH-2K locus alleles. Variants were obtained after a single-step selection using either antiH-2Kb or anti-H-2Kd serum. The phenotypes of the variants obtained showed an interesting asymmetry between the two haplotypes. Selection against theH 2K b allele resulted in the isolation of the two expected types of variant-those that had lost only H-2Kb and those that had lost both H-2Kb and the linked H-2Db. Selection against H-2Kd yielded, exclusively, variants that had lost both the selected antigen and the linked H-2Dd. None of the variants showed an alteration in expression of antigens intrans configuration. Karyotypic analyses of the variants revealed that all the cells had retained both copies of chromosome 17 present in the wild-type cells. The results suggest that the variants did not emerge through chromosome loss.  相似文献   

5.
Neonatal transplantation tolerance to the products of theH-2 b complex was induced in B10.A (H-2 a ) mice. On the basis of the survival of skin allografts it was found that antigens determined by theD region of theH-2 b complex (of the B10.A(2R) strain) were most easily overcome and that tolerance to the products of theD end of theH-2 complex (of the B10.A(4R) strain) was also easy to induce. The antigens produced by theK end ofH-2 (of the B10.A(5R) and B10.A(3R) strains) represented a stronger incompatibility barrier and a difference in the entireH-2 b complex caused strongest resistance to tolerance induction. When tolerance to the products of the entireH-2 b complex was induced in newborn B10.A mice, and the neonatally treated animals were grafted simultaneously with five different grafts, those disparate at theK end ofH-2 and in the entireH-2 region were rejected in some animals, while the grafts disparate at theD end of H-2 remained intact in the same mice. No dependence on theI-J subregion was observed in this system. Furthermore, tolerance was more easily inducible in male than in female B10.A mice.  相似文献   

6.
Do histocompatibility antigens recognize themselves?   总被引:1,自引:1,他引:0  
In the Simonsen spleen weight assay, theH-2K ba mutant does not respond against theH-2K bd mutant orH-2K bd /H-2K b hybrid, while the parentalH-2K b haplotype does respond. TheH-2K ba /H-2K b hybrid reacts strongly to bothH-2K bd andH-2K bd /H-2K b , indicating that the donor genotype could influence the reactivity against the same antigenic difference. The response of theH-2 ba mutant against a number of unrelated H-2 antigens does not differ from that of the parental haplotype. TheH-2K bd mutant reacts againstH-2K b andH-2K ba , and theH-2K b parent reacts against both theH-2K ba andH-2K bd mutants. The specific defect of reactivity in theH-2K ba mutant is effectively complemented by crossing with a number of unrelatedH-2 haplotypes. TheH-2 ka andH-2 fa mutants complement poorly compared to corresponding parental strains CBA and A.CA, while the B10.M (H-2 f ) strain does not complement at all (which is probably attributable to an undetectedH-2 mutation in the last strain). The data strongly suggest that the product of theH-2K locus-which is known to function as a transplantation antigen, lymphocyte activating determinant, and serologically defined antigen-also influences the immune response capacity against a mutant histocompatibility determinant.  相似文献   

7.
Immune response (Ir) genes mapping in theI region of the mouseH-2 complex appear to regulate specifically the presentation of a number of antigens by macrophages to proliferating T cells. We have investigated the possibility that similarIr genes mapping in theH-2K andH-2D regions specifically regulate the presentation of target antigens to cytotoxic effector T cells. We report that the susceptibility of targets expressing specific non-H-2 H alloantigens to lysis by H-2-compatible, H-antigen-specific cytotoxic effector T cells is controlled by polymorphicH-2K/D genes. This control of susceptibility to lysis is accomplished through what we have defined operationally as antigen-specific regulation of non-H-2 H antigen immunogenicity. High immunogenicity of the H-4.2 alloantigen is determined by a gene mapping in theH-2K region ofH-2 b . However, high immunogenicity of H-7.1 is determined by a gene mapping in theH-2D region ofH-2 b . High immunogenicity of the H-3.1 alloantigen is determined by genes mapping in both theH-2K andH-2D regions ofH-2 b . Therefore, genes mapping in theH-2K andH-2D regions serve a function in presenting antigen to cytotoxic effector T cells. This function is analogous to that played byI-regionIr genes expressed in macrophages which present antigen to proliferating T cells. We present arguments for classification of theseH-2K/D genes as a second system ofIr genes and discuss the implications of twoH-2-linkedIr-gene systems, their possible functions, and their evolution.  相似文献   

8.
Limit-dilution cultures were used to select vaccinia-immune T-cell populations from bml and bm3 mutant mice that were not lytic for virus-infected targets expressing the Kb and Db MHC glycoprotein. Approximately 30% of virus-immune CTL were restricted in each case to Kbm1 and Kbm3, rather than to Db. Evidence of extensive cross-reactivity was found for these virus-immune CTL. Bm3 and bmll mice sharing one amino acid mutation from wild-type but differing by a second mutation seen only in bm3 are the most cross-reactive pair in their presentation of vaccinia. The bm1 and bm10 pair with dissimilar mutations from wild-type affecting the same CNBr fragment are also largely cross-reactive. However, 30% cross-reactivity is also found for bm1 and bm3, which differ in separate CNBr fragments. That mutants expressing amino acid substitutions in the same region of the peptide tend to show more evidence of cross-reactivity does not necessarily mean the T cells see linear arrays of amino acids on the MHC glycoprotein. For instance, Kbm1 and Kbm10 differ for three amino acids, but bm1 T cells are highly lytic for bm10 virus-infected targets. However, there is no cross-reactivity for Kbm1 and Kb, which differ at only two amino acids. The key to further understanding may rest with defining the nature of the conformational differences among the Kbm1, Kbm10, and Kb glycoproteins.  相似文献   

9.
The genetic control of the immune response to H-4 histocompatibility alloantigens is described. The rejection of H-4.2-incompatible skin grafts is regulated by anH-2-linkedIr gene. Fast responsiveness is determined by a dominant allele at theIrH-4.2 locus. TheH-2 b ,H-2 d , andH-2 s haplotypes share the fast response allele;H-2 a has the slow response allele. Through the use of intra-H-2 recombinants, we have mapped theIrH-4.2 locus to theI-B subregion of theH-2 complex; theH-2 h4 ,H-2 15, andH-2 t4 haplotypes are fast responder haplotypes. These observations suggest that the strength of non-H-2 histocompatibility antigens is ultimately determined by the antigen-specific recipient responsiveness.  相似文献   

10.
In an earlier paper, we presented evidence that two independent mutants of the bg series, B6-H-2 bm5 (bm5) and B6-H-2 bm16 (bm16) carry identical mutations such that tyrosine at residue number 116 of the H-2Kb molecule from the parent strain C57BL/6Kh is replaced by a phenylalanine in each of the two mutant molecules. In this paper, we demonstrate, using similar techniques, that the independent bg series mutants B6-H-2 bm6 (bm6), B6.C-H-2 bm7 (bm7), and B6.C-H-2 bm9 (bm9), which share biological properties with bm5 and bm16, can be grouped together because they share two identical mutations, one of which is common to bm5 and bm16, a Tyr to Phe interchange at residue number 116. In addition, a second mutation is at residue number 121, where a Cys in the H-2K molecule from 136 is substituted with an Arg in the mutant. Since all of the bg series mutants arose independently and share biological and biochemical characteristics, it is anticipated that study of these mutants could lead to some understanding of the high mutation rate in the Kb molecule.  相似文献   

11.
The genetic control of delayed-type hypersensitivity in mice was investigated by contact sensitization with picryl chloride. Distribution patterns of contact sensitivity in 11 inbred strains of mice showed significant differences among strains. Comparison of levels of response between congenic-resistant lines and their inbred partners, at 9 to 11 weeks of age, revealed a clear association betweenH-2 haplotype and the magnitude of response. Testing ofH-2 recombinants further suggested the influence of two genes mapping at either end of theH-2 complex. While theH-2K d andH-2D k alleles were associated with a high response, theH-2K k ,H-2K b ,H-2D d , andH-2D b alleles were associated with a low response. Analysis of the ontogeny of response suggested that theH-2 haplotype manifests its effect through the maturation of contact sensitivity. On both the C57BL/6By and C57BL/10Sn backgrounds, theH-2 d haplotype was associated with early maturation of response, while theH-2 b haplotype was associated with late maturation. Analysis of the response of congenic lines with different genetic backgrounds and of CXB recombinant-inbred lines further revealed the marked effects of yet other genes on this trait.  相似文献   

12.
Peritoneal (PM) and bone marrow-derived (BMM) macrophages and lung fibroblasts (LF) from inbred, intra-H-2 recombinant, H-2 mutant, and hybrid mice were infected with murine cytomegalovirus (MCMV) under centrifugal enhancement. At the concentration of virus employed, peritoneal macrophages from strains carrying Kd, Kb, Dd, KS and/or Ds, K4 and/or D4 alleles could be infected to a level of 80%–100%, as assessed by viral antigen expression or loss of Fc receptors. Cells lacking these haplotypes and carrying Kk, Kf, Dk, Df, or Db were resistant, yielding levels of infection below 20% . The background (non-H-2) and class II genotype and the S allele did not influence the proportions of cells infected. Furthermore, sensitivity was dominant in the F, progeny of H-2 b x H-2 k and H-2d x H-2 k crosses, and was not compromised by thebm1, bm3, bm10, or bm14 mutations in the al or2 regions of Kb orD b. The proportions of cells able to release infectious virus were low, but paralleled the frequencies of viral antigen expression. The class I genotype also determined susceptibility to MCMV infection in BMM and LF, although up to 35% of H-2 k BMM and 46% of H-2 k LF could be infected. The findings are consistent with an association between K and D antigens and a cellular receptor for MCMV on all three cell types.  相似文献   

13.
Two new C57BL/6H-2 mutants,B6.C-H- 2bm13 and B6.C-H- 2bm14 are described. They arose independently in C57BL/6 as spontaneous mutations of the gain and loss type. Complementation studies map the mutations in both bm13 and bm14 to theH-2D b gene. How ever, these two mutant strains are not identical, but occurred as independent mutations at the same locus, as shown by reciprocal graft rejection and by the inability of the (bm13 × bm114)F1 hybrid to accept C57BL/6 grafts. Serological studies by direct testing (cytotoxicity and hemagglutination) and by quantitative absorption demonstrated a decrease in the H-2Db private specificity H-2.2 in both bm13 and bm14 when compared to C57BL/6. This was confirmed by SDS-PAGE analysis using antisera detecting the H-2.2 specificity. Attempts to produce antibodies to either the gained or lost specificities of the two mutant strains failed.  相似文献   

14.
Lymph-node cells fromH-2 allogeneic, intra-H-2 recombinant andH-2 mutant congenic strains were sensitized in limiting dilution cultures to quantitate the cytotoxic T-lymphocyte precursor frequencies (CTL.Pf) against antigens encoded by different regions of theH-2 complex. When fourH-2K b mutants of C57BL/6 (B6) were tested, we observed anti-B6 CTL.Pf that were as high or higher than those of recombinant strains which differ from B6 at theK end of theH-2 complex. Relative to strains completelyH–2 allogeneic to B6, the CTL.Pf inH-2 bm1,H-2 bm3 andH-2 bm5 averaged 40–50 percent, andH-2 bm8 averaged 140 percent. Recombinant strains B10.A (4R) and B10.D2 (R103), which differ from B6 at theK end of theH-2 complex, averaged 60 percent of the completelyH-2 allogeneic value. Since the mutant and wild-type gene products have no serological and minimal structural differences relative to other alleles atH-2K, these results indicate that the CTL.Pf does not increase with increasing H-2 antigenic disparity between any two strains. Rather, the data suggests that the T-cell receptor repertoire recognizes those H-2 molecules or determinants closest to self.  相似文献   

15.
Three newH-2 b mutant strains, B6.C-H-2 bm9 , B6.C-H-2 bm10 and B6.C-H–2 bm11 , are described. The three mutant strains are of the gain and loss type as they reject skin grafts reciprocally with the parental C57BL/6Kh. The mutations, which arose independently, are all allelic at the same locus as 11 other mutant strains already described. By complementation and other studies the mutated gene has been shown to beH-2K b . The strains were typed directly and by absorption with antisera specific for H-2Kb and H-2Db private and public specificities and for Iab specificities. Each strain typed differently with these sera. The strain B6.C-H-2 bm9 was found to be serologically identical with C57BL/6. The strains B6.C-H-2 bm10 and B6.C-H-2 bm11 were found to have alterations in the private H-2Kb specificity, H-2.33, and in the public specificity, H-2.5, but to a different extent. B6.C-H- 2bm10 had a marked decrease in the amount of H-2.33 expressed on the splenic cell surface as compared to C57BL/6 and also has a marked decrease in the expression of H-2.5 on both spleen and red blood cells. In comparison, B6.C-H-2 bm11 has a decrease in the expression of H-2.33 but an increase in the expression of H-2.5 on both splenic and red blood cells. The other H-2b specificities appeared to be unaltered as compared with C57BL/6.  相似文献   

16.
The H-2K glycoprotein from the MHC mutant bm10 was analyzed biochemically to determine where primary structural differences distinguished it from the parental standard molecule, Kb. Comparative peptide maps showed differences in two peptides known to be part of the parental CNBr fragment spanning amino acids 139 to 228. Partial sequence analyses of CNBr fragments and tryptic peptides identified two tightly clustered amino acid substitutions at amino acids 165 (Val to Met) and 173 (Lys to unknown). The substitutions in bm10 represent the most carboxy-terminal substitutions characterized in the Kb molecules of the spontaneous, histogenically active H-2 mutants.  相似文献   

17.
Spleen cells carrying theH-2K b allele and sensitized against TNP-modified stimulator cells in vitro displayed a cytotoxic effect against TNP-modified target cells carrying a mutation in theH-2K b allele (haplotypesH-2 ba ,H-2 bd , andH-2 bf ). Similar crossreactivity in TNP-CML was observed in the reciprocal direction. Spleen cells carrying theH-2K k allele and sensitized against TNP-modified stimulators displayed a cytotoxic effect against TNP-modified target cells carrying a mutation in theH-2K k allele (haplotypeH-2 ka ) and vice versa. The effector cells in these assays were sensitive to anti-T cell serum in the presence of complement, and supernatants from immune cultures did not induce nonimmune cells to display a cytotoxic effect. Titration of effector cells from mutant and wild-type strains of theH-2 b haplotype indicated no detectable quantitative differences in their activities. These data demonstrate that crossreactivity in TNP-CML occurs in closely related allogeneic strains that have recently undergone mutation in theH-2 complex.  相似文献   

18.
Serological characterization of threeK-S interval recombinant strains, TBR2 (H-2 at2 ), TBR3 (H-2 at3 ) and AIR1 (H-2 a2 ) was performed using anti-H-2, Ia, Ss and Slp antisera. The data presented here reveal that the crossover events in both TBR2 and TBR3 occurred between theI-A andI-E subregions. In both cases, theH-2K andI-A subregions were derived from theH-2 t1 chromosome, while theI-E, S andH-2D regions were derived from theH-2 b chromosome (K s A k E b S b D b ). TheH-2 a2 chromosome resulted from a crossover event between theH-2 a1 andH-2 i9 chromosomes. Ia and Ss typing of AIR1 suggested that theK toI-E regions originated fromH-2 a1 and theS andD regions originated fromH-2 i9 (K k A k E k S b D d ).  相似文献   

19.
We have investigated alloantigen differences which stimulate lymphokine release and3H-TdR uptake in primary ‘one-way’ MLC among allogeneic mice. When mice differing at the wholeH-2 region were tested, MIF and immune IF release was observed, along with a marked3H-TdR uptake. Differences atK, D, orI-S-G regions stimulate both lymphokine release and3H-TdR uptake, though stronger immune IF and3H-TdR responses were observed with differences atI-S-G regions. On the other hand, when mice differing in their minor histocompatibility antigens, and notably at theMls locus, were tested, lymphokine release took place even in the absence of proliferation. Lastly, in MLC between mice differing at multiple minor loci, butH-2 andMls matched, MIF release only, and not immune IF and3H-TdR responses were observed in a few combinations. These findings show that T lymphocytes can recognize alloantigens by releasing lymphokines even without going through proliferation. Moreover, different levels of T-lymphocyte activation exist, depending on the kind of stimulating alloantigens present.  相似文献   

20.
A.BY, B10.LPa, and B10.129(5M) mice were presensitized in vivo against B10.A(5R) cells and then restimulated in vitro by the same cells in the standard CML assay. The effector cells thus generated lysed not only B10.A(5R), but also C57BL/6 targets, indicating that, in addition to anti-H-2Dd response [measured on the B10.A(5R) targets], response to minor histocompatibility (H) antigens (measured on the C57BL/6 targets) also occurred. The latter response was directed against multiple minor H antigens in the case of the A.BY effectors, and against H-1 and H-3 antigens in the case of B10.129(5M) and B10.LPa effectors, respectively. The sensitization against minor H antigens occurred in the context of H-2Kb H-2Dd antigens, but by testing the response on C57BL/6 targets, only cells reacting with minor H antigens in the context of H-2Kb were assayed. The same effector cells were then tested against H-2b mutant strains, in which theH-2K b allele was replaced by a mutant one. All three effector types [A.BY, B10.LPa, and B10.129(5M)] behaved in a similar way: they all reacted with theH-2 bg1 mutant to the same degree as withH-2 b, they did not react at all or reacted only weakly with theH-2 bd andH-2 bh mutants, and they reacted moderately or strongly with theH-2 ba mutant. The degree of crossreactivity with the mutants reflects, with one exception, the degree of relatedness of these mutants toH-2 b, as established by other methods. The one exception is theH-2 ba mutant, which is the most unrelated toH-2 b, and yet it crossreacted strongly. Further testing, however, suggested that in this instance the crossreactivity was probably directed against H-2 antigens: the anti-H-2Dd effectors apparently crossreacted with the H-2Kba antigens. This finding is an example of cell-mediated crossreactivity between the products of two differentH-2 genes (H-2K andH-2D). It is also an example of anH-2 mutation generating an antigenic determinant known to be present in another strain.  相似文献   

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