Internalization and activation of the rat liver insulin receptor kinase in vivo.

The preparation of clearly delineated plasmalemma (PM) and endosomal subcellular fractions from rat liver has allowed us to compare insulin receptor (IR) kinase activity at the cell surface and in hepatic endosomes (ENs) as a function of dose and time after injected insulin. Tyrosine kinase activity in PM and ENs was measured, after solubilization and partial purification by wheat germ agglutinin chromatography (lectin-purified), using poly(Glu:Tyr) as substrate. Following the injection of a subsaturating dose of insulin (1.5 micrograms/100 g body weight), lectin-purified receptor showed peak activation at 30 s in PM and at 2 min in ENs. As observed previously (Khan, M. N., Savoie, S., Bergeron, J. J. M., and Posner, B. I. (1986) J. Biol. Chem. 261, 8462-8472) autophosphorylation activity was also augmented following insulin injection. In a pattern virtually identical to that of exogenous kinase activity, autophosphorylation attained peak activity at 30 s in PM and at 2 min in ENs. The time course of IR autophosphorylation in intact membranes was very similar to that observed for lectin purified receptors and was seen with an injected insulin dose as low as 150 ng/100 g body weight. Phosphatase treatment of the solubilized endosomal receptor abolished its enhanced activity. Hence, insulin treatment led to in vivo receptor phosphorylation which was reflected in the enhancement of both tyrosine kinase and autophosphorylation activities. Significant differences in the phosphorylation activities of PM and ENs were observed. Phosphoamino acid analyses revealed that the activated IR of intact PM was autophosphorylated in vitro, at both serine (55%) and tyrosine (45%) residues; whereas the activated IR of intact ENs was phosphorylated in vitro exclusively on tyrosine autophosphorylation specific activity for the activated IR of ENs was 3- to 4-fold that of the IR of PM. This was observed for the lectin purified IRs as well as for IRs of intact cell fractions. The reduced level of IR autophosphorylation in PM was not due to occlusion of tyrosine acceptor sites by prior in vivo phosphorylation. The rapidity with which activated IR accumulates in ENs as well as the sensitivity of endosomal IR kinase to activation by injected insulin are consistent with the endosomal apparatus serving a physiologically significant site for the regulation of transmembrane signaling.