Identification and characterization of GLP-1 receptor–expressing cells using a new transgenic mouse model

P Richards, HE Parker, AE Adriaenssens… - Diabetes, 2014 - Am Diabetes Assoc
P Richards, HE Parker, AE Adriaenssens, JM Hodgson, SC Cork, S Trapp, FM Gribble…
Diabetes, 2014Am Diabetes Assoc
GLP-1 is an intestinal hormone with widespread actions on metabolism. Therapies based on
GLP-1 are highly effective because they increase glucose-dependent insulin secretion in
people with type 2 diabetes, but many reports suggest that GLP-1 has additional beneficial
or, in some cases, potentially dangerous actions on other tissues, including the heart,
vasculature, exocrine pancreas, liver, and central nervous system. Identifying which tissues
express the GLP-1 receptor (GLP1R) is critical for the development of GLP-1–based …
GLP-1 is an intestinal hormone with widespread actions on metabolism. Therapies based on GLP-1 are highly effective because they increase glucose-dependent insulin secretion in people with type 2 diabetes, but many reports suggest that GLP-1 has additional beneficial or, in some cases, potentially dangerous actions on other tissues, including the heart, vasculature, exocrine pancreas, liver, and central nervous system. Identifying which tissues express the GLP-1 receptor (GLP1R) is critical for the development of GLP-1–based therapies. Our objective was to use a method independent of GLP1R antibodies to identify and characterize the targets of GLP-1 in mice. Using newly generated glp1r-Cre mice crossed with fluorescent reporter strains, we show that major sites of glp1r expression include pancreatic β- and δ-cells, vascular smooth muscle, cardiac atrium, gastric antrum/pylorus, enteric neurones, and vagal and dorsal root ganglia. In the central nervous system, glp1r-fluorescent cells were abundant in the area postrema, arcuate nucleus, paraventricular nucleus, and ventromedial hypothalamus. Sporadic glp1r-fluorescent cells were found in pancreatic ducts. No glp1r-fluorescence was observed in ventricular cardiomyocytes. Enteric and vagal neurons positive for glp1r were activated by GLP-1 and may contribute to intestinal and central responses to locally released GLP-1, such as regulation of intestinal secretomotor activity and appetite.
Am Diabetes Assoc