Synthetic linear and cyclic glucagon antagonists
| Autor: | Victor J. Hruby, Nevena Mollova, Anne Bannister, Dirk Tourwe, Ramalinga Dharanipragada, Dev Trivedi, Mara Sieyel, Karl H. Schram |
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| Rok vydání: | 2009 |
| Předmět: |
Male
Stereochemistry Molecular Sequence Data Glucagon binding In Vitro Techniques Spectrometry Mass Fast Atom Bombardment Peptides Cyclic Biochemistry Glucagon Cyclase Receptors Gastrointestinal Hormone Rats Sprague-Dawley Structure-Activity Relationship chemistry.chemical_compound Amide Receptors Glucagon Animals Peptide bond Amino Acid Sequence chemistry.chemical_classification Cyclic compound Rats Amino acid Kinetics Liver chemistry Peptides Glucagon receptor |
| Zdroj: | International Journal of Peptide and Protein Research. 42:68-77 |
| ISSN: | 0367-8377 |
| DOI: | 10.1111/j.1399-3011.1993.tb00352.x |
| Popis: | The synthesis and biological activities of seven new glucagon analogues are reported. The design of compounds 2-5 is based on potent antagonists recently reported from this laboratory, where we have focused on modifications in the N-terminal region. In this report we have concentrated specifically on modifications to histidine-1. In addition we have prepared two cyclic compounds 7 and 8, related to a linear in vivo antagonist [Glu9]glucagon, reported by Merrifield (Unson et al. (1987) Proc. Natl. Acad. Sci. USA 84, 4083-4087). The N-terminal modifications involved substitution of His1 by the unnatural conformationally constrained residue (S)-5,6,7,8-tetrahydro-5-oxoimidazo(1,5-c)pyrimidine-7-carboxylic acid (Toc), desaminohistidine (dHis) and 3-(4-nitrobenzyl)histidine. The structures of the new compounds are as follows. [Toc1,D-Phe4,Tyr5,Arg12,Lys17,18,Glu21]glucagon (2); [Toc1,D-Phe4,Tyr5,Arg12,Lys17,18,Glu21]glucagon amide (3); [3-(4-nitrobenzyl)His1,D-Phe4,Tyr5,Arg12,Lys17,18,G lu21]glucagon (4); [dHis1,D-Phe4,Tyr5,Arg12,Lys17,18,Glu21]glucagon (5); [dHis1,Glu9]glucagon (6); (desHis1)[Glu9,Lys12]glucagon amide (7); (desHis1)-[Glu9,Lys12,Asp15]glucagon amide (8). The binding potencies of the linear analogues, as expressed a percentage of glucagon binding, are 2.6 (2), 0.13 (3), 0.8 (4), 0.8 (5), 2.2 (6). Both cyclic analogues 7 and 8 show biphasic binding curves. The IC50 values for 7 at the high and low affinity sites are 1.5 and 167 nM, respectively (IC50 of glucagon = 1.3 nM). The IC50 values for 8 at the high and low affinity sites are 4.7 and 3451 nM, respectively. The cyclic analogues are characterized by fast atom bombardment mass spectrometry of endoproteinase ASP-N digests. The specificity of the enzyme used in these studies enables differentiation of isomers of the cyclic glucagon analogues which differ only in the position of cyclic amide bond. Analogues 2, 3 and 5-8 are glucagon receptor antagonists with respect to the glucagon receptor coupled to the adenylate cyclase (AC) system. Analogue 4 is a partial agonist (5.7% compared to glucagon) of AC. Introduction of unusual amino acids which do not contain a primary alpha-amino group such as Toc at the N-terminus is expected to increase in vivo metabolic stability by protecting against degradation by aminopeptidases. |
| Databáze: | OpenAIRE |
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