Insulin receptor: Interaction with nonreceptor glycoprotein from liver cell membranes

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RESUMO

In crude receptor preparations (either particulate or soluble) of rat liver membranes, the insulin receptor exhibits complicated binding kinetics (two binding plateaus, half-saturated at approximately 60 pM and 700 pM insulin) and an apparent chromatographic heterogeneity, suggested by the presence of two detectable, soluble insulin-binding components with apparent Stokes radii of 72 Å and 38 Å. In contrast, the insulin receptor isolated by affinity chromatography exhibits a simple binding isotherm (half-maximal saturation of binding at 700 pM insulin) without evidence for negative cooperativity and behaves as a single component (apparent Stokes radius of 38 Å) upon chromatography on Sepharose 6B. The apparent discrepancies between the properties of the unpurified insulin receptor and the affinity-purified receptor can be attributed to the presence in crude preparations of a nonreceptor constituent(s) having properties consistent with those of a membrane glycoprotein. A glycoprotein fraction from such crude soluble membrane preparations, freed from insulin receptor and subsequently partially purified using concanavalin-A-agarose, when combined with affinity-purified insulin receptor, causes both a reappearance of the complicated binding kinetics and an increase in the receptor's apparent Stokes radius from 38 Å to 72 Å. Similar results are observed for a glycoprotein fraction obtained from rat adipocyte membranes but are not observed for an identical fraction isolated from human erythrocyte membranes. We conclude that the insulin receptor in rat liver membranes can interact with another nonreceptor membrane glycoprotein that may represent either a nonrecognition moiety of the receptor oligomer or an effector molecule to the biological action of insulin.

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