2-DIMENSIONAL PHOSPHOPEPTIDE ANALYSIS OF THE AUTOPHOSPHORYLATION CASCADE OF A SOLUBLE INSULIN-RECEPTOR TYROSINE KINASE - THE TYROSINES PHOSPHORYLATED ARE TYPICAL OF THOSE OBSERVED FOLLOWING PHOSPHORYLATION OF THE HETEROTETRAMERIC INSULIN-RECEPTOR IN INTACT-CELLS

A soluble derivative of the human insulin receptor cytoplasmic domain, as expressed in insect cells via a Baculovirus vector, is an active protein-tyrosine kinase. In the present study, we find that three forms of the enzyme (48, 43, and 38 kDa) can be partially purified by MonoQ fast protein liquid chromatography. Two-dimensional thin layer phosphopeptide mapping reveals that the 48-kDa enzyme undergoes a rapid autophosphorylation on the same tyrosines (residues 1158, 1162, 1163, 1328, and 1334) that have previously been shown to be major autophosphorylation sites on the native insulin receptor beta-subunit in intact cells. Furthermore, the 48- and 43-kDa proteins are phosphorylated on serine residues by a serine kinase(s) that copurifies through MonoQ fast protein liquid chromatography. Tyrosine autophosphorylation sites 1328 and 1334 and virtually all serine phosphorylation sites are absent in the 38-kDa kinase. Partial tryptic proteolysis of the 48-kDa kinase generates a core 38-kDa enzyme that undergoes autophosphorylation almost exclusively on tyrosines 1158, 1162, and 1163. Phosphorylation of these tyrosine residues occurs in a cascade manner analogous to that found in the intact insulin receptor beta-subunit.