Nutrient control of insulin secretion in perifused adult pig islets

• Published in: Diabetes & metabolism Vol. 33; no. 6; pp. 430 - 438
• Main Authors: Dufrane, D, Nenquin, M, Henquin, J.C
• Format: Journal Article
• Language: English
• Published: Paris Elsevier Masson SAS 01.12.2007; Masson
• Subjects: Amino Acids - pharmacology; Animals; Associated diseases and complications; Biological and medical sciences; Diabetes. Impaired glucose tolerance; Endocrine pancreas. Apud cells (diseases); Endocrinology & Metabolism; Endocrinopathies; Glucose - pharmacology; Human islets; Insulin - metabolism; Insulin Secretion; Internal Medicine; Islets of Langerhans - drug effects; Islets of Langerhans - metabolism; Isolated islets; Kinetics; Medical sciences; Perfusion; Pig islets; Swine; Sécrétion d'insuline; Transplantation; Îlots humains; Îlots isolés; Îlots porcins; Îlots porcins; Sécrétion d'insuline; Human islets; Transplantation; Isolated islets; Pig islets; Îlots isolés; Insulin secretion; Îlots humains; Endocrinopathy; Pancreatic hormone; Secretion; Diabetes mellitus; Langerhans islet; Heterograft; Insulin; Pig; Vertebrata; Mammalia; Treatment; Animal; Nutrient; Artiodactyla; Ungulata; Endocrine pancreas
• ISSN: 1262-3636; 1878-1780
• DOI: 10.1016/j.diabet.2007.05.001

Abstract Objectives Xenotransplantation of pig islets is a potential solution to the shortage of human islets, but our knowledge of how these islets secrete insulin in response to nutrients is still fragmentary. This was the question addressed in the present study. Methods After 24 h culture adult pig islets were perifused to characterize the dynamics of insulin secretion. Some responses were compared to those in human islets. Results Increasing glucose from 1 to 15 mM weakly (~ 2×) stimulated insulin secretion, which was potentiated (~ 12×) by the cAMP-producing agent, forskolin. The effect of glucose was concentration-dependent (threshold at 3 –5 mM and maximum at ~ 10 mM). The pattern of secretion was biphasic with a small first phase and an ascending second phase, and a paradoxical increase when the glucose concentration was abruptly lowered. Diazoxide abolished glucose-induced insulin secretion and tolbutamide reversed the inhibition. Glucose also increased secretion when islets were depolarized with tolbutamide or KCl. Insulin secretion was increased by leucine + glutamine, arginine, alanine or a mixture of amino acids, but their effect was significant only in the presence of forskolin. Upon stimulation by glucose alone, human islets secreted ~10× more insulin than pig islets, and the kinetics was characterized by a large first phase, a flat second phase, and rapid reversibility. Conclusions Compared with human islets, in vitro insulin secretion by adult pig islets is characterized by a different kinetics and a major quantitative deficiency that can be corrected by cAMP.