HL-A Model of the H-2 system?

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/66009/1/j.1399-0039.1972.tb00121.x.pd

EVIDENCE SUPPORTING A TWO-GENE MODEL FOR THE H-2 HISTOCOMPATIBILITY SYSTEM OF THE MOUSE

The genetic structure of the H-2 system has been traditionally interpreted as consisting of multiple regions controlling histocompatibility antigens. Recently however, many difficulties have been encountered in attempts to construct a single, consistent linear H-2 map on this basis. We have shown that the genetic, serological, and biochemical findings on the H-2 system can be more readily explained by the assumption that there are only two histocompatibility regions (loci) in the H-2 system, H-2D and H-2K, which are separated by loci controlling serum proteins (Ss-Slp), immune response (Ir-1), and perhaps others. Evidence supporting such an interpretation of the H-2 system was obtained by a transplantation analysis of the 14 well-defined H-2 crossovers. F1 hybrids between different H-2 crossovers were produced and challenged with skin grafts from third party strains. The donor-recipient relationships in these combinations were such that in at least 10 cases the skin grafts should have been rejected if the multiple-region H-2 map is correct but should survive permanently if the two-region model is correct. In all instances, the skin grafts survived permanently, providing further evidence for the two-region map of the H-2 complex

Studies on Recombination within the Mouse H-2 Complex

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/65671/1/j.1399-0039.1972.tb00141.x.pd

GENETIC AND PHYLOGENETIC VARIATION IN THE DIFFERENT MOLECULAR FORMS OF MAMMALIAN ERYTHROCYTE CARBONIC ANHYDRASES *

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/73183/1/j.1749-6632.1968.tb11878.x.pd

Genetic studies of quantitative variation in a component of human saliva

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/66392/1/j.1469-1809.1963.tb01529.x.pd

Studies on Recombination within the Mouse H-2 Gene Complex. III. Further Serological Analyses of the H-2 t Haplotypes *

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/66398/1/j.1399-0039.1975.tb00655.x.pd

A sex-limited serum protein variant in the mouse: Hormonal control of phenotypic expression

The sex-limited protein (Slp) antigen of the mouse is first detected in the serum of strain DBA/2J males at 5–6 weeks of age and reaches full adult levels by 10 weeks. This antigen is normally absent in females. Immature DBA/2J males castrated at 3 1/2 weeks of age failed to develop Slp antigen, while DBA/2J females treated with testosterone propionate starting at 3 1/2 weeks developed normal adult male levels of Slp antigen. Similar hormone-influenced effects were demonstrated in adult males and females of the same strain. Experiments indicated that testosterone does not act directly in the serum to expose Slp antigenic sites. Testosterone treatment of both males and females of strain C57BL/10JSf, which does not carry the gene for the presence of the Slp antigen, failed to stimulate the appearance of the antigen. Thus, the presence of Slp antigen in the serum is dependent on both the proper genotype and the presence of male hormone.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/44172/1/10528_2004_Article_BF00485645.pd

GENETIC CONTROL OF THE IMMUNE RESPONSE : MAPPING OF THEIR-1 LOCUS

Eleven strains of mice bearing recombinant H-2 chromosomes derived from known crossover events between known H-2 types were immunized with a series of branched, multichain, synthetic polypeptide antigens [(T,G)-A--L, (H,G)-A--L, and (Phe,G)-A--L]. Results with nine of the eleven H-2 recombinants indicated that the gene(s) controlling immune response to these synthetic polypeptides (Ir-1) is on the centromeric or H-2K part of the recombinant H-2 chromosome. Results with two of the eleven recombinant H-2 chromosomes indicated that Ir-1 was on the telomeric or H-2D part of the recombinant H-2 chromosome. Both of these recombinants were derived from crossovers between the H-2K locus and the Ss-Slp locus near the center of the H-2 region. One of these recombinants, H-2y, was derived from a known single crossover event. These results indicate that Ir-1 lies near the center of the H-2 region between the H-2K locus and the Ss-Slp locus. The results of a four-point linkage test were consistent with these results. In 484 offspring of a cross designed to detect recombinants between H-2 and Ir-1, only two putative recombinants were detected. Both of these recombinants were confirmed by progeny testing. Extensive analysis of one of them has shown that the crossover event occurred within the H-2 region. (Testing of the second recombinant is currently under way.) Thus, in the linkage test, recombinants between H-2 and Ir-1 are in fact intra-H-2 crossovers. These results permit assignment of Ir-1 to a position between the H-2K locus and the Ss-Slp locus

The relationship of the major murine histocompatibility region associated IA antigens to mitogen responses

Genes located in the I region of the H-2 complex control a system of lymphocyte alloantigens (Ia) which are expressed on subpopulations of T and B cells. Specific anti-Ia serum plus rabbit complement removed the B-lymphocyte population responsive to the mitogen LPS and the subpopulation of T cells responsive to Con-A. Lymphocytes sensitive to PHA or leucoagglutinin were not removed by anti-Ia serum and complement. Significant inhibition of the proliferative response to LPS was also obtained by brief periods of cell pretreatment with anti-Ia antibodies without complement. This inhibition was specific with the appropriate anti-Ia serum and did not occur with anti-H-2K sera or when cells of a different I region were pretreated.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/21764/1/0000158.pd

The distribution of la antigens of the H-2 complex on lymph node cells by immunoferritin labelling

The distribution of Ia antigens on the surfaces of lymph node lymphocytes of several mouse strains was investigated using indirect immunoferritin labeling and electron microscopy. The immunoferritin labeling results agreed with results of cytotoxic tests in strain distribution of reactivity, proportion of cells showing label, and cell populations reacting. Capping was induced by increased incubation temperature but conditions for Ia antigen mobilization varied somewhat between the two anti-Ia antisera employed. Uncapped specimens generally showed a denser, more evenly distributed antigen coating than is the case for H-2 antigens labeled by the same indirect immunoferritin method.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/22111/1/0000538.pd