Hypoglycemic action of a novel constrained analog of human growth hormone-(6-13).

Abstract

The amino-terminal region of human GH (hGH), in particular the amino acid sequence Leu-Ser-Arg-Leu-Phe-Asp-Asn-Ala[hGH-(6-13)], has been implicated as a functional region for the regulation of energy metabolism by exerting an insulin-potentiating action on insulin-sensitive tissues. Recent structural studies have revealed that the cyclization of the aspartate (Asp11) residue to form the alpha-aminosuccinimide (Asu11) ring is essential for the biological action of peptides related to this hGH fragment. The pharmacological application of these hGH-(6-13) peptides has been hindered by the vulnerability of the alpha-aminosuccinimide to hydrolytic modification leading to the loss of biological action. We have succeeded in stabilizing the structure of the Asu11-hGH-(6-13) peptide by replacing the alpha-aminosuccinimide ring with compatible and less rapidly metabolized gamma-lactam structures. In the present paper we report the bioactivity profile of an analog of hGH-(6-13) containing a gamma-lactam at residue position 11 that mimics the stereoelectronic and conformational characteristics of the alpha-aminosuccinimide ring. In vitro, the gamma-lactam11-hGH-(6-13) peptide analog increased [14C]glucose incorporation into glycogen in muscles and conversion to lipid in adipose tissues. In vivo, the gamma-lactam11-hGH-(6-13) peptide enhanced hypoglycemia during iv insulin tolerance tests. The results demonstrate that the gamma-lactam11-hGH-(6-13) peptide analog has similar biological properties to the Asu11-hGH-(6-13) peptide fragment, but with improved molecular stability and bioavailability.