Plasma membrane p180, which insulin receptor phosphorylates in vivo, is not a tyrosine kinase

Abstract

The earliest substrates to the transmembrane insulin receptor tyrosine kinase, that would function in insulin signalling, are likely to be associated with the plasma membrane. Rat liver plasma membrane 180, 000 M r protein (p180) is a substrate to the insulin receptor in vitro [Goren et al. (1990) Cellular Signalling 2, 537–555]. The question as to whether p180 is a substrate in vivo was addressed. Half ml 0.9% NaCl or 500 μg insulin was injected into rat livers. Purified plasma membrane glycoproteins from the livers were assayed for in vitro phosphorylation reaction products and endogenous tyrosine-phosphorylated proteins. Membranes from insulin-injected rat livers contained phosphorylated p180 and phosphyrylated insulin receptor β-subunit, whereas saline-injected rat liver membranes contained neither. These data suggested that p180 is an in vivo substrate to the insulin receptor. In vitro p180 is tyrosine-phosphorylated in the absence of insulin. p180, therefore, may be the epidermal growth factor (EGF) receptor or another tyrosine kinase that could be part of a phosphorylation cascade initiated by insulin. Two different experiments suggested that p180 is not the EGF receptor: (i) two-dimensional gel electrophoresis (first dimension—non-equilibrium pH-gradient gel electrophoresis) indicated that p180 is a more basic glycoprotein than EGF receptor; and (ii) based on reverse-phase high pressure liquid chromatography, the tryptic-phosphopeptides of carboxymethyl-Sepharose-purified phosphorylated-p180 were different from those of A431 cell phosphorylated-EGF receptor. Similarly, two different experiments demonstrated that p180 is not a tyrosine kinase: (i) gel-permeation chromatogrpahy separated the insulin receptor from p180 and only insuling receptor was autophosphorylated in vitro; and (ii) membrane proteins not bound to immobilized ATP contained p180. Thus, p180 can associate with the insulin receptor and be phosphorylated in vitro and in vivo; however, p180 does not function in an insulin receptor-mediated phosphorylation cascade.