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  • Title: Mechanism of genetic resistance to Friend virus leukemia in mice. V. Relevance of Fv-3 gene in the regulation of in vivo immunosuppression.
    Author: Kumar V, Resnick P, Eastcott JW, Bennett M.
    Journal: J Natl Cancer Inst; 1978 Oct; 61(4):1117-23. PubMed ID: 100604.
    Abstract:
    Infection with the Friend murine leukemia virus complex (F-MuLV) suppressed humoral antibody synthesis in vivo and lymphocyte mitogenesis in vitro. Both these effects of F-MuLV were under host genetic control. In vitro suppression of lymphocyte mitogenesis was regulated by a single autosomal gene called Fv-3 that is dominant for susceptibility. Genetic analyses, with the use of the susceptible DBA/2 and resistant B10.D2/n parents, their F1, intercross, and backcross progeny, indicated that a single autosomal gene dominant for susceptibility regulated the in vivo susceptibility to immunosuppression by F-MuLV. Individual [(DBA/2xB10.D2)F1xB10.D2] mice were typed both for susceptibility to F-MuLV-induced suppression of lymphocyte mitogenesis in vitro (an Fv-3 function) and susceptibility to immunosuppression by F-MuLV in vivo. Such an analysis indicated that the same mice that were susceptible or resistant to immunosuppression in vivo were susceptible or resistant to suppression of lymphocyte mitogenesis in vitro. Spearman's rank analysis of the data also indicated that the in vivo and in vitro immunosuppressive effects of F-MuLV were correlated with and not independent of each other. Thus Fv-3, which regulates the effect of F-MuLV on lymphocytes in vitro, also appears to regulate the effect of F-MuLV on antibody-forming cells in vivo.
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