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Avian erythroblastosis virus (AEV) is an acutely transforming retrovirus whose putative oncogenes (v-erb-A and v-erb-B) encode the proteins P74gag-erb-A and P61-68erb-B. The existence of these two gene products has prompted the question of whether one or both proteins are required in the transformation of erythroblasts and fibroblasts by AEV. In the accompanying manuscript, we describe the use of site-specific mutagenesis to generate mutants of AEV unable to synthesize P61-68erb-B. Here we present our analysis of the oncogenic potential of an AEV mutant unable to synthesize P74gag-erb-A due to a large deletion encompassing both gag and v-erb-A sequences. The erb-A-mutant retrovirus propagated quite poorly on fibroblasts in culture; however, fibroblasts harboring the erb-A mutant genome were transformed in the absence of P74gag-erb-A expression. The mutant virus failed to induce erythroleukemias in chickens, but the validity of this finding is compromised by the poor replicative capacity of the mutant. The results presented in this and the preceding manuscript indicate that P61-68erb-B is both necessary and sufficient for neoplastic transformation of fibroblasts by AEV; by contrast, a role for p74gag-erb-A in leukemogenesis by AEV has not yet been rigorously excluded.
Avian erythroblastosis virus (AEV) induces both erythroblastosis and fibrosarcomas in susceptible birds. A locus, v-erbB, within the viral genome has been implicated in AEV-mediated oncogenesis. We report here the detection and partial characterization of the protein product of the v-erbB oncogene in AEV-transformed cells. We obtained the antisera necessary for our analysis by expressing a portion of the molecularly cloned v-erbB locus in Escherichia coli and immunizing rabbits with the resulting bacterial erbB polypeptide. Antisera directed against the bacterial polypeptide reacted with v-erbB proteins obtained from virus-infected avian cells. By three criteria--tunicamycin inhibition, lectin binding and metabolic labeling with radioactive sugar precursors--the product of the v-erbB gene appears to be a glycoprotein.
Avian erythroblastosis virus (AEV) induces both erythroblastosis and fibrosarcomas in susceptible birds. Two domains within its replication-defective genome, erb-A and erb-B, have been implicated in AEV-mediated oncogenesis. An efficient transfection system for generating infectious, transforming virus from molecular clones of AEV and RAV-1 (helper virus) was combined with the techniques of site-specific mutagenesis to investigate the contribution of erb-B to the two forms of oncogenesis induced by AEV. Deletion and frameshift mutations were constructed in the erb-B locus of cloned AEV DNA in vitro. Infectious retroviruses harboring these mutations were recovered and their ability to transform fibroblasts in vitro or induce erythroleukemia in vivo was assessed. The presence of mutant viral genomes in chick embryo fibroblasts or erythroblasts of infected birds was confirmed by suitable biochemical analyses. Expression of viral genes in cells infected with AEV mutants was examined by immunoprecipitation with antisera to erb-A and erb-B proteins. It was found that the product of erb-B is necessary for transformation of fibroblasts and induction of erythroblastosis by AEV, although a small portion of this protein at the carboxy terminus is dispensable.