Abstract

Objective: Glucagon-like peptide-1 (GLP-1) is a regulatory peptide synthesized in the gut and the brain that plays an important role in the regulation of food intake. Both GLP-1 and exendin-4 (Ex4), a long-acting GLP-1 receptor (GLP-1r) agonist, reduce food intake when administered intracerebroventricularly (i3vt), whereas Ex4 is much more potent at suppressing food intake when given peripherally. It has generally been hypothesized that this difference is due to the relative pharmacokinetic profiles of GLP-1 and Ex4, but it is possible that the two peptides control feeding via distinct mechanisms.

Research Design and Methods: In this study, the anorectic effects of i3vt GLP-1 and Ex4, and the sensitivity of these effects to GLP-1r antagonism, were compared in rats. In addition, the GLP-1r-dependence of the anorectic effect of i3vt Ex4 was assessed in GLP-1r-/- mice.

Results: I3vt Ex4 was 100-fold more potent than GLP-1 at reducing food intake, and this effect was insensitive to GLP-1r antagonism. However, GLP-1r antagonists completely blocked the anorectic effect of intraperitoneal Ex4. Despite the insensitivity of i3vt Ex4 to GLP-1r antagonism, i3vt Ex4 failed to reduce food intake in GLP-1r-/- mice.

Conclusions: These data suggest that, although GLP-1r are required for the actions of Ex4, there appear to be key differences in how GLP-1 and Ex4 interact with CNS GLP-1r, and in how Ex4 interacts with GLP-1r in the brain versus the periphery. A better understanding of these unique differences may lead to expansion and/or improvement of GLP-1-based therapies for type 2 diabetes and obesity.