Phosphorylation process induced by epidermal growth factor alters the oncogenic and cellular neu (NGL) gene products.

The rat neu oncogene encodes a cell surface glycoprotein, p185, that possesses tyrosine kinase activity. The p185 polypeptide exhibits structural similarity to the epidermal growth factor receptor (EGFR) at both the deduced amino acid and nucleic acid level. However, the neu oncogene and the gene encoding the EGFR have been shown to reside on distinct chromosomes. Comparative analysis of the sequences of the normal neu cDNA and of the neu cDNA from neuroblastomas has revealed a single point mutation leading to a valine-to-glutamic acid substitution in the transmembrane anchoring domain. This mutation converts the neu gene to a transforming gene in rodents. In humans, the gene is called ERBB2 (also NGL and HER2), and amplification and over-expression of its products have been detected in certain tumors. The rat embryonal fibroblast cell line (Rat-1) appears to express both EGFR and cellular p185 polypeptides. We have found that EGF stimulates the phosphorylation of p185 in these cells at tyrosine as well as serine and threonine residues in a specific and dose-dependent manner. This activity occurs even though radiolabeled EGF cannot bind to immunopurified p185. The EGF effect is apparently unique since platelet-derived growth factor, insulin, and transforming growth factor beta all fail to phosphorylate p185 at tyrosine. The EGF-induced effect requires interaction of the EGFR and its cognate ligand because cell lines that lack EGFR cannot be shown to phosphorylate p185, even when exposed to large amounts of EGF. Oncogenic rodent p185 and the human p185 homologue ERBB2 that is overexpressed in human breast tumor cells also can be shown to become phosphorylated on tyrosine residues by the action of EGF. Collectively, these data demonstrate that EGF mediates phosphorylation of p185 at tyrosine as well as serine/threonine through cellular kinases by a receptor-specific mechanism.