Immunoglobulin synthesis in mice: suppression by anti-allotype antibody

In the mouse, antibody directed against an immunoglobulin allotype, Ig-1b, passed from mother to offspring or injected into neonates, suppresses synthesis of immunoglobulin carrying Ig-1b. In allotype homozygotes as well as heterozygotes the allotype suppression is manifested both by a delay of several weeks in attaining initial detectable allotype levels and a reduction in allotype level continuing into adulthood. A possible mechanism for the differentiation of the immune system consistent with both the kinetics of suppression reported here for the mouse and the comparatively longer lived and more complete allotype suppression described for the rabbit is discussed. Evidence for a strong intralitter (as opposed to interlitter) correlation of age of onset of immunoglobulin allotype synthesis is presented.

Identification of a gene locus for gamma-G-1 immunoglobulin H chains and its linkage to the H chain chromosome region in the mouse

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Immunoglobulin isoantigens (allotypes) in the mouse. II. Allotypic analysis of three gammaG2-myeloma proteins from (NZB x BALB/c)F1 hybrids and of normal gammaG2-globulins

Further analysis of the isoantigens (allotypes) of 2 classes of normal mouse immunoglobulins, gammaG(2a) and gammaG(2b), has shown a minimum of 10 specificities for the Ig-1 locus (controlling gammaG(2a)-antigens) and 3 specificities for the Ig-3 locus (controlling gammaG(2b)-antigens). Three gammaG(2)-myeloma proteins of plasma cell tumors induced in (NZB x BALB/c)F(1) mice have been analyzed for the isoantigens they carry. NZB mice are genotypically Ig-1(e) Ig-3(e), while BALB/c are Ig-1(a) Ig-3(a). Two of the myeloma proteins are gammaG(2a)-globulins. One of these, GPC-7, carries all the isoantigenic specificities of the Ig-1(e) allele while the other, GPC-8, carries all the isoantigenic specificities of the Ig-1(a) allele. Thus only one of the parental alleles of the mouse in which the tumor arose is expressed in each of these myeloma proteins. The third myeloma protein GPC-5, also carries the antigens of only one parental strain (NZB). However GPC-5, a gammaG(2b)-globulin, carries only one of the Ig-3 specificities normally associated with gammaG(2b)-globulins of NZB. Most remarkably it also carries one Ig-1 specificity normally associated with gammaG(2a)-globulins of NZB. This is the first analyzed mouse myeloma shown (a) to express some but not all the antigenic specificities normally associated with an allele and (b) to carry antigenic specificities controlled by two distinct immunoglobulin loci. The implications of these findings are discussed in relation to the genetic control of immunoglobulins.

Molecular weight determination of two genetically linked cell surface murine antigens: ThB and Ly-6

Various murine tumor lines were screened by FACS analysis for the surface antigens ThB and Ly-6.2. Positive cell lines were used for immunoprecipitation studies. A monoclonal ThB-specific antibody immunoprecipitated a unique acidic protein of approximately 16 000 daltons from several positive tumors and from concanavalin A (Con-A) and LPS activated splenic lymphocytes. Monoclonal Ly-6.2-specific antibody was used to immunoprecipitate a 33 500 dalton protein that was shown to exist in four similarly sized forms with different basic charges. In the course of these studies, the apparent molecular weight of the surface antigen T 30, immunoprecipitated with a monoclonal T 30-specific antibody from the cell line EL4, was found to be approximately 25 000 daltons.