Identification and characterization of specific binding proteins for growth hormone in normal human sera.

Abstract

The well-recognized "big" forms (45,000-100,000 mol wt) of immunoreactive human growth hormone (hGH) in human serum have been reported to be random aggregates or formal polymers. However, we have now investigated the possibility that they are protein-bound forms. After incubation of monomeric 125I-hGH with normal serum, gel chromatography indicated a peak of bound 125I-hGH (at approximately 120,000 mol wt), which was completely displaced by excess unlabeled hGH. When serum alone was chromatographed two peaks of specific binding were subsequently detected, the major peak, eluting between 74,000 and 85,000 mol wt corresponded to the 125I-hGH-binding protein complex observed at approximately 120,000 mol wt. Using a mini-gel filtration system for separating bound from free hormone, binding of 125I-hGH by normal human serum was dependent on time (equilibrium was reached in 2 h at 21 degrees C), temperature (21 degrees C greater than 37 degrees C), Ca2+ and serum concentrations. Binding was reversible and highly specific for hGH, not being displayed by GH or prolactins from several species. Scatchard analysis revealed linear plots with an affinity (KA) of 0.32 +/- 0.06 X 10(9) M-1 (n = 7). Human serum with low endogenous hGH levels, when added to rabbit liver membranes, decreased the binding of 125I-hGH in this tissue in a dose-dependent manner. These data indicate that human sera contain a specific, high affinity binding protein for hGH and that this may account, at least in part, for the known size heterogeneity of GH in serum. Its effect on GH binding to target tissues may indicate a role for the binding protein in the regulation of GH action.