biie-0246 has been researched along with Weight-Loss* in 1 studies
1 other study(ies) available for biie-0246 and Weight-Loss
Article | Year |
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GLP-1 receptor signaling is not required for reduced body weight after RYGB in rodents.
Exaggerated GLP-1 and PYY secretion is thought to be a major mechanism in the reduced food intake and body weight after Roux-en-Y gastric bypass surgery. Here, we use complementary pharmacological and genetic loss-of-function approaches to test the role of increased signaling by these gut hormones in high-fat diet-induced obese rodents. Chronic brain infusion of a supramaximal dose of the selective GLP-1 receptor antagonist exendin-9-39 into the lateral cerebral ventricle significantly increased food intake and body weight in both RYGB and sham-operated rats, suggesting that, while contributing to the physiological control of food intake and body weight, central GLP-1 receptor signaling tone is not the critical mechanism uniquely responsible for the body weight-lowering effects of RYGB. Central infusion of the selective Y2R-antagonist BIIE0246 had no effect in either group, suggesting that it is not critical for the effects of RYGB on body weight under the conditions tested. In a recently established mouse model of RYGB that closely mimics surgery and weight loss dynamics in humans, obese GLP-1R-deficient mice lost the same amount of body weight and fat mass and maintained similarly lower body weight compared with wild-type mice. Together, the results surprisingly provide no support for important individual roles of either gut hormone in the specific mechanisms by which RYGB rats settle at a lower body weight. It is likely that the beneficial effects of bariatric surgeries are expressed through complex mechanisms that require combination approaches for their identification. Topics: Animals; Arginine; Benzazepines; Body Composition; Body Weight; Dietary Fats; Eating; Energy Metabolism; Gastric Bypass; Glucagon-Like Peptide-1 Receptor; Male; Mice; Mice, Knockout; Motor Activity; Obesity; Oxygen Consumption; Peptide Fragments; Rats; Rats, Sprague-Dawley; Receptors, Glucagon; Weight Loss | 2014 |