Seven families of Igh-V genes have been defined by Southern blot analysis of genomic DNA from eighteen inbred strains of mice. Each of twenty-four cloned Vh genes hybridized to one of seven nonoverlapping sets of Eco RI restriction fragments. These families contain from 2 to approximately 40 hybridizing fragments. From these data we estimate that the mouse Igh-V locus consists of one hundred Vh genes. Genes within a Vh family share greater than 80% sequence homology while the sequence homology between families is generally less than 70%. There is extensive restriction fragment length polymorphism among the strains analyzed allowing the assignment of complete (Igh-V + Igh-C) Igh haplotypes for eighteen inbred mouse strains.
Immunization of the A strain of mice with the hapten p-azophenylarsonate (Ars) results in an immune response in which approximately 50% of the anti-Ars antibodies share cross-reactive idiotypic determinants (IdCR). A gene or genes linked to the heavy chain constant region locus is required for the production of this idiotype. The expressed VH gene from a hybridoma cell line which expresses the IdCR has been cloned. DNA hybridization studies utilizing the VH gene have revealed that there are many related genes in both idiotype-producing and idiotype-nonproducing strains of mice. However, under stringent hybridization conditions, only a single band of 6.4 kb is present in Eco R1-digested A strain DNA. Strains of mice which are phenotypically idiotype-negative either lack this band completely or possess a much weaker one at this position. Utilizing DNA from Igh recombinant strains of mice, it has been shown that the VH locus controlling idiotype expression contains the structural gene information for the idiotype-positive heavy chains. It has also been shown that DNA at this locus appears to be sufficient for the production of the cross-reactive idiotype. Utilizing a DNA probe derived from regions flanking the structural gene has confirmed the relatedness of V genes in a variety of mouse strains and revealed a significant degree of polymorphism at the Igh locus.
In humans, infection with schistosome helminths can lead to dissimilar forms of clinical disease. Likewise, in the experimental mouse system, identical infection protocols with Schistosoma mansoni cause a more severe granulomatous disease in the C3H strain than in the C57BL/6 strain. To address this difference, we developed panels of schistosomal egg antigen (SEA)-specific T cell hybridomas to compare the responses of C3H and C57BL/6 mice to the major egg antigen p40. All derived C3H T cell hybridomas, despite being clonally distinct and restricted by either I-Ak or I-Ek, responded to recombinant fragment 15-1 of the p40 antigen, while none of the C57BL/6 T cell hybridomas did. Consistent with the observed monoclonal T cell responses, polyclonal lymph node cells from schistosome-infected C3H mice reacted strongly to fragment 15-1, which contrasted sharply with the weak response displayed by the C57BL/6 strain. Moreover, studies with congenic mice demonstrated that the strong CD4+ T cell response to fragment 15-1 was under major histocompatibility complex control and segregated with the H-2k haplotype. These findings suggest that a dominant T cell response against a major egg antigen may represent a risk factor for the development of severe disease.
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