Abstract
A soluble human insulin receptor can be obtained in high yield from placenta membranes, using the detergent Ammonyx-LO. In crude soluble preparations, the placenta receptor exhibits complex insulin binding kinetics (two binding plateaus, half-saturated at about 40 pM and 700 pM insulin) and an apparent chromatographic heterogeneity (Sepharose 6B) with two insulin binding components having apparent Stokes radii of 72Å and 38Å. However, subsequent to purification by affinity chromatography on insulin-Sepharose, the placenta receptor exhibits a simple insulin binding isotherm, without evidence for binding cooperativity (K D about 830 pM), and upon chromatography behaves as a single component with a Stokes radius of 38Å A. When combined with a previously described non-receptor glyco-protein preparation isolated from liver membranes, the affinity-purified plancenta receptor undergoes an increase in its Stokes radius from 38Å to 72Å. Because of the physicochemical similarities between the placenta receptor and the insulin receptor previously isolated from liver cell membranes, it is concluded that the placenta receptor is representative of the insulin receptor present in other traditional target tissues for insulin. The study underscores a possible role for insulin in placental physiology and provides for the large scale isolation of the human receptor from a readily available source.
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