Lymphomas and high-level expression of murine leukemia viruses in CFW mice.

Historically, Swiss Webster mice of the CFW subline, both inbred and random-bred stocks, have been considered to have a low spontaneous occurrence of hematopoietic system tumors, and previous reports of infectious expression of murine leukemia viruses (MuLVs) have been rare and unremarkable. In marked contrast, in the present study of CFW mice from one source observed by two laboratories over a 2-year period, nearly 60% developed tumors, 85% of which were lymphomas, the majority of B-cell origin. All tumors tested expressed ecotropic MuLVs, and most expressed mink cell focus-inducing (MCF) MuLVs. Among normal mice of weanling to advanced age, over one-half were positive for ecotropic virus in tail or lymphoid tissues, and MCF virus was frequently present in lymphoid tissue, less often in tail. Patterns of ecotropic proviral integration indicated that natural infection occurred by both genetic and exogenous routes. Lymphomas were induced in NIH Swiss mice infected as neonates with tissue culture-propagated MuLVs isolated from normal and tumor tissue of CFW mice.

Construction of a cDNA for the human c-fes protooncogene protein-tyrosine kinase and its expression in a baculovirus system.

Previous studies have established that the 93-kDa protein-tyrosine kinase (PTK) encoded by the human c-fes protooncogene plays an active role in the induction of terminal myeloid differentiation. However, this enzyme is expressed at very low levels in myeloid cells, making isolation of sufficient quantities for detailed biochemical analysis difficult. To overcome this problem, we used the polymerase chain reaction to construct a full-length c-fes cDNA from overlapping 5' and 3' partial cDNA sequences. The c-fes cDNA was expressed at high levels in a baculovirus system, and the catalytically active recombinant c-fes gene product p93c-fes was partially purified by DEAE-Sepharose and tyrosine-agarose chromatography. Recombinant p93c-fes was indistinguishable from the native protein in terms of its apparent molecular weight following SDS-PAGE, catalytic activity, Km for poly(Glu,Tyr)4:1, antigenicity, and phosphopeptide pattern generated with Staphylococcus aureus protease.