Abstract
Paracrine interactions between pancreatic islet cells have been proposed as a mechanism to regulate hormone secretion and glucose homeostasis. Here, we demonstrate the importance of proglucagon-derived peptides (PGDPs) for α to β cell communication and control of insulin secretion. Signaling through this system occurs through both the glucagon-like peptide receptor (Glp1r) and glucagon receptor (Gcgr). Loss of PGDPs, or blockade of their receptors, decreases insulin secretion in response to both metabolic and nonmetabolic stimulation of mouse and human islets. This effect is due to reduced β cell cAMP and affects the quantity but not dynamics of insulin release, indicating that PGDPs dictate the magnitude of insulin output in an isolated islet. In healthy mice, additional factors that stimulate cAMP can compensate for loss of PGDP signaling; however, input from α cells is essential to maintain glucose tolerance during the metabolic stress induced by high-fat feeding. These findings demonstrate an essential role for α cell regulation of β cells, raising the possibility that abnormal paracrine signaling contributes to impaired insulin secretion in diabetes. Moreover, these findings support reconsideration of the role for α cells in postprandial glucose control.
Authors
Megan E. Capozzi, Berit Svendsen, Sara E. Encisco, Sophie L. Lewandowski, Mackenzie D. Martin, Haopeng Lin, Justin L. Jaffe, Reilly W. Coch, Jonathan M. Haldeman, Patrick E. MacDonald, Matthew J. Merrins, David A. D’Alessio, Jonathan E. Campbell
Figure 3
Lack of proglucagon peptide input reduces insulin secretion in response to both triggering and amplification signals.
