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Synthetic peptide antagonists of glucagon.

1987; National Academy of Sciences; Volume: 84; Issue: 12 Linguagem: Inglês

10.1073/pnas.84.12.4083

1091-6490

Cecilia G. Unson, David Andreu, Ellen Gurzenda, R. B. Merrifield,

Pancreatic function and diabetes

Several glucagon analogs were synthesized in an effort to find derivatives that would bind with high affinity to the glucagon receptor of rat liver membranes but would not activate membrane-bound adenylate cyclase and, therefore, would serve as antagonists of the hormone. Measurements on a series of glucagon/secretin hybrids indicated that replacement of Asp9 in glucagon by Glu9, found in secretin, was the important sequence difference in the N terminus of the two hormones. Further deletion of His1 and introduction of a C-terminal amide resulted in des-His1-[Glu9]glucagon amide, which had a 40% binding affinity relative to that of native glucagon but caused no detectable adenylate cyclase activation in the rat liver membrane. This antagonist completely inhibited the effect of a concentration of glucagon that alone gave a full agonist response. It had an inhibition index of 12. The pA2 was 7.2. An attempt was made to relate conformation with receptor binding. The peptides were synthesized by solid-phase methods and purified to homogeneity by reverse-phase high-performance liquid chromatography on C18-silica columns.