Abstract

The receptors for insulin and insulin-like growth factor (IGF) I are structurally similar transmembrane proteins. Ligand binding to the extracellular domain of the receptor stimulates its cytoplasmic tyrosine protein kinase which phosphorylates its own β subunit as well as exogenous substrates. It is believed, from several lines of evidence, that tyrosine-specific protein kinases are mediating some or all of the actions of insulin (or IGF-I). In order to gain insights into the substrate specificity of the structurally related insulin and IGF-I receptor kinases, we have studied the action of highly purified receptors isolated from human placental membranes. Present studies using selected tyrosine-containing polymers have revealed: (i) Polymers such as (Y,A,E) n and (Y-A-E) n inhibit β subunit autophosphorylation and exogenous substrate phosphorylation by autophosphorylated receptors, (ii) Insulin receptor kinase is at least 10 times more sensitive to these inhibitors than IGF-I receptor kinase. (iii) (Y-A-E) n is ~8 times more potent an inhibitor than (Y,A,E) n toward both receptors, (iv) While (E 4Y 1) n and (E 6,A 3,Y 1) n are good substrates for both receptor kinases, the ratio of phosphate incorporation into the former to the latter is characteristically high (~4) for the IGF-I receptor and low (~1) for the insulin receptor. These results imply that the substrate specificity and enzymatic action of these two receptor kinases are distinct.

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