Properties and partial purification of the detergent-solubilized insulin receptor A demonstration of negative cooperativity in micellar solution

Turkey erythrocytes possess insulin receptors with binding properties very similar to those of mammalian insulin receptors. In the present study, the insulin receptor of the avian erythrocyte has been solubilized in Triton X-100, extensively characterized and partially purified, and its properties compared to those of the membrane-bound receptor.The solubilized insulin receptor has a Stokes radius of 70 Å and an apparent molecular weight of 300 000 in 0.05% Triton. The binding of insulin to the soluble receptor was very similar to the binding observed with the membrane-bound receptor. Thus, binding was markedly temperature dependent for both the soluble and membrane-bound forms, although the kinetics of binding were slower with the soluble receptor. Both forms of the receptor also showed a sharp pH optimum; however, solubilization produced a shift from maximal binding at pH 7.8 to pH 7.3. The soluble receptor also retained insulin analog specificity, ion sensitivity and negative cooperativity. The soluble receptor did not appear to degrade either bound or free insulin.On DEAE-cellulose chromatography the receptor eluted as a single peak. The specific activity of this partially purified preparation was 25–30 pmol/mg protein (about 500-fold enrichment over crude extract and 5-fold over highly purified membranes). Extensive attempts to purify further the receptor by gel filtration, carboxymethyl-cellulose chromatography and affinity chromatography resulted in either a very low yield or only modest enrichment. Purification was also complicated because the receptor was easily denatured; about 40% of the activity was lost after a 90-min exposure to 3 M urea or pH 4.5.