Sulphydryl agents modulate insulin- and epidermal growth factor (EGF)-receptor kinase via reaction with intracellular receptor domains: differential effects on basal versus activated receptors.

Sulphydryl reagents have been shown to produce a variety of effects on insulin-receptor structure and function. However, localization of these effects to specific receptor domains has not been attempted. We have investigated this question with insulin- and epidermal growth factor (EGF)-receptors (both are receptor tyrosine kinases but have different sulphydryl/disulphide structures within the external domain), and the insulin receptor kinase (IRK) protein consisting solely of the insulin-receptor cytoplasmic domain and exhibiting constitutive kinase activity. Results showed a differential response between basal and activated receptors. The physiological reductant GSH stimulated basal receptor autophosphorylation, but was either without effect (EGF) or inhibited (insulin) activated receptors, and occurred without visible reduction of receptor structure. These results contrast with those obtained with dithiothreitol which appears to activate phosphorylation in association with reduction of the extracellular insulin-receptor disulphides, but is without effect on the EGF receptor or the IRK protein. Alkylating agents N-ethylmaleimide (NEM) and iodoacetamide (IAM) had opposing effects on receptor autophosphorylation. However, only in the basal state was IAM able to protect receptors from the inhibitory effect of NEM. Our results suggest that complex sulphydryl interactions can occur within the cytoplasmic domain of insulin- and EGF-receptors to alter receptor kinase activity. The basal and activated state of receptors is not the same with respect to sulphydryl reagent action, possibly due to conformational change in the receptor induced by ligand (insulin, EGF) or constitutive (IRK) activation.