Aim
cAMP typically signals downstream of Gs -coupled receptors and regulates numerous cell functions. In β-cells, cAMP amplifies Ca2+ -triggered exocytosis of insulin granules. Glucose-induced insulin secretion is associated with Ca2+ - and metabolism-dependent increases of the sub-plasma-membrane cAMP concentration ([cAMP]pm ) in β-cells, but potential links to canonical receptor signalling are unclear. The aim of this study was to clarify the role of glucagon-like peptide-1 receptors (GLP1Rs) for glucose-induced cAMP signalling in β-cells.
Conclusion
Agonist-independent and glucagon-stimulated GLP1R signalling in β-cells contributes to basal and glucose-induced cAMP production and insulin secretion.
Methods
Total internal reflection microscopy and fluorescent reporters were used to monitor changes in cAMP, Ca2+ and ATP concentrations as well as insulin secretion in MIN6 cells and mouse and human β-cells. Insulin release from mouse and human islets was also measured with ELISA.
Results
The GLP1R antagonist exendin-(9-39) (ex-9) prevented both GLP1- and glucagon-induced elevations of [cAMP]pm , consistent with GLP1Rs being involved in the action of glucagon. This