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Gluco-incretins control insulin secretion at multiple levels as revealed in mice lacking GLP-1 and GIP receptors.

The role of the gluco-incretin hormones GIP and GLP-1 in the control of beta cell function was studied by analyzing mice with inactivation of each of these hormone receptor genes, or both. Our results demonstrate that glucose intolerance was additively increased during oral glucose absorption when both receptors were inactivated. After intraperitoneal injections, glucose intolerance was more severe in double- as compared to single-receptor KO mice, and euglycemic clamps revealed normal insulin sensitivity, suggesting a defect in insulin secretion. When assessed in vivo or in perfused pancreas, insulin secretion showed a lack of first phase in Glp-1R(-/-) but not in Gipr(-/-) mice. In perifusion experiments, however, first-phase insulin secretion was present in both types of islets. In double-KO islets, kinetics of insulin secretion was normal, but its amplitude was reduced by about 50% because of a defect distal to plasma membrane depolarization. Thus, gluco-incretin hormones control insulin secretion (a) by an acute insulinotropic effect on beta cells after oral glucose absorption (b) through the regulation, by GLP-1, of in vivo first-phase insulin secretion, probably by an action on extra-islet glucose sensors, and (c) by preserving the function of the secretory pathway, as evidenced by a beta cell autonomous secretion defect when both receptors are inactivated.

Pubmed ID: 14966573

Authors

  • Preitner F
  • Ibberson M
  • Franklin I
  • Binnert C
  • Pende M
  • Gjinovci A
  • Hansotia T
  • Drucker DJ
  • Wollheim C
  • Burcelin R
  • Thorens B

Journal

The Journal of clinical investigation

Publication Data

February 17, 2004

Associated Grants

None

Mesh Terms

  • Animals
  • Blood Glucose
  • Carbachol
  • Cyclic AMP
  • Female
  • Gastric Inhibitory Polypeptide
  • Glucagon
  • Glucagon-Like Peptide 1
  • Glucose Tolerance Test
  • Insulin
  • Male
  • Mice
  • Mice, Knockout
  • Pancreas
  • Peptide Fragments
  • Protein Precursors
  • Receptors, Gastrointestinal Hormone
  • Receptors, Glucagon