Abstract
Previous studies identified two glycoproteins of 86 (gp86) and 72 (gp72) kilodaltons and two nonglycosylated proteins of 70 (p70) and 19 (p19) kilodaltons which were specifically expressed in NIH cells transformed by DNA of the MCF-7 human mammary carcinoma cell line. Pulse-chase experiments and the use of tunicamycin to inhibit glycosylation suggested that gp86, gp72, and p19 were related as precursor products. Characteristics of the four transformation-associated proteins resembled those of murine leukemia virus (MuLV) proteins. Sera raised against disrupted MuLV immunoprecipitated the same four proteins in extracts of NIH(MCF-7) cells and MuLV-infected NIH 3T3 cells. In addition, a monoclonal antibody against MuLV gp70 immunoprecipitated proteins gp86 and gp72, whereas a monoclonal antibody against MuLV p15(E) immunoprecipitated gp86 and p19. These results indicate that proteins gp86, gp72, and p19 expressed in NIH(MCF-7) transformants correspond to MuLV envelope proteins gp80env, gp70, and p15(E), respectively. The transformation-associated protein p70 appears to be a non-envelope MuLV protein, most likely p65gag. Northern blot analysis confirmed that transformation of NIH cells by MCF-7 mammary carcinoma DNA led to the induction of an endogenous MuLV provirus.
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