1. Academic Validation
  2. Pharmacological regulation of insulin secretion in MIN6 cells through the fatty acid receptor GPR40: identification of agonist and antagonist small molecules

Pharmacological regulation of insulin secretion in MIN6 cells through the fatty acid receptor GPR40: identification of agonist and antagonist small molecules

  • Br J Pharmacol. 2006 Jul;148(5):619-28. doi: 10.1038/sj.bjp.0706770.
Celia P Briscoe 1 Andrew J Peat Stephen C McKeown David F Corbett Aaron S Goetz Thomas R Littleton David C McCoy Terry P Kenakin John L Andrews Carina Ammala James A Fornwald Diane M Ignar Stephen Jenkinson
Affiliations

Affiliation

  • 1 Department of Metabolic Diseases, GlaxoSmithKline, 5 Moore Drive, Research Triangle Park, NC 27709, USA. cpb15172@gsk.com
Abstract

1. Long chain fatty acids have recently been identified as agonists for the G protein-coupled receptors GPR40 and GPR120. Here, we present the first description of GW9508, a small-molecule agonist of the fatty acid receptors GPR40 and GPR120. In addition, we also describe the pharmacology of GW1100, a selective GPR40 antagonist. These molecules were used to further investigate the role of GPR40 in glucose-stimulated Insulin secretion in the MIN6 mouse pancreatic beta-cell line. 2. GW9508 and linoleic acid both stimulated intracellular Ca2+ mobilization in human embryonic kidney (HEK)293 cells expressing GPR40 (pEC50 values of 7.32+/-0.03 and 5.65+/-0.06, respectively) or GPR120 (pEC50 values of 5.46+/-0.09 and 5.89+/-0.04, respectively), but not in the parent HEK-293 cell line. 3. GW1100 dose dependently inhibited GPR40-mediated Ca2+ elevations stimulated by GW9508 and linoleic acid (pIC50 values of 5.99+/-0.03 and 5.99+/-0.06, respectively). GW1100 had no effect on the GPR120-mediated stimulation of intracellular Ca2+ release produced by either GW9508 or linoleic acid. 4. GW9508 dose dependently potentiated glucose-stimulated Insulin secretion in MIN6 cells, but not in primary rat or mouse islets. Furthermore, GW9508 was able to potentiate the KCl-mediated increase in Insulin secretion in MIN6 cells. The effects of GW9508 on Insulin secretion were reversed by GW1100, while linoleic acid-stimulated Insulin secretion was partially attenuated by GW1100. 5. These results add further evidence to a link between GPR40 and the ability of fatty acids to acutely potentiate Insulin secretion and demonstrate that small-molecule GPR40 agonists are glucose-sensitive Insulin secretagogues.

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