Evidence for the presence of insulin binding sites in isolated rat intestinal epithelial cells

Abstract

Insulin receptors have been demonstrated in isolated rat intestinal epithelial cells. The specific binding of ¹²⁵I-insulin was time — and temperature — dependent, the optimal temperature of study being 15°. Dissociation of bound ¹²⁵I-insulin by an excess of unlabelled hormone was rapid and attained 66±2% in 2 h. When initiated by dilution, the dissociation attained 35±4% in 2 h, and 72±1% in 2 h when 10^-7mol/l unlabelled insulin was added. The pH optimum for the binding process was between 7.5 and 8, and the binding increased proportionally to cell protein concentration up to 1.5 mg/ml. Under standard conditions (2 h at 15°) the degradation of the labelled hormone in the medium accounted for 20–50% of total tracer, depending on the concentration of cells. At apparent equilibrium (2 h at 15°), unlabelled insulin in the range of 10^-10 to 10^-7 mol/l inhibited competitively the binding of 4.3–7× 10^-11 mol/l ¹²⁵I-insulin; fifty per cent inhibition was obtained with 3×10^-9 mol/l native insulin. Scatchard analysis, after correction for degradation, gave curvilinear plots, that may be explained by two orders of binding sites, with 2,000±200 sites/cell of high affinity (Ka=2.2±0.2×10⁹l/mol) and 39,000±3,000 sites/cell of low affinity (Ka=5.6±1.6× 10⁷l/mol). The potency of proinsulin to compete with ¹²⁵I-insulin for the binding site was 3% that of insulin, unrelated peptides were inactive. Such results give a molecular basis to different reports suggesting that the intestine could be a target-tissue for insulin.