Self-Phosphorylation of Epidermal Growth Factor Receptor Is an Intermolecular Reaction

Abstract

The binding of epidermal growth factor (EGF) to epidermal growth factor receptor (EGF receptor) results in the dimerization and self-phosphorylation of the receptor. Both of these responses were followed as a function of time and the concentration of EGF receptor. Dimerization of EGF receptor was monitored by immunoblotting the protein after it had been cross-linked with glutaraldehyde. The capacity for self-phosphorylation was followed by measuring the relative level of incorporation of [32P]phosphate into EGF receptor on autoradiograms of the same immunoblots used for the assay of its dimerization. When these two properties were followed as a function of time, it was found that dimerization preceded the appearance of the capacity for self-phosphorylation. Both dimeric and monomeric forms of EGF receptor were self-phosphorylated in the presence of EGF, but the dimeric form was phosphorylated preferentially to the monomeric form. When the dimerization and the capacity for self-phosphorylation were followed as a function of the concentration of dimeric EGF receptor, it was observed that the self-phosphorylation of dimeric EGF receptor increased as the concentration of dimeric EGF receptor increased. An equation including terms representing both intramolecular and intermolecular rates of self-phosphorylation was fit to the plots of self-phosphorylation as a function of concentration of EGF receptor. These fits demonstrate that intramolecular self-phosphorylation within dimers of EGF receptor is insignificant and that self-phosphorylation is an intermolecular process between dimers of EGF receptor.