Novel neural pathways targeted by GLP-1R agonists and bariatric surgery.
Study Goal
The researchers aimed to compare the neural mechanisms of GLP-1R agonists and bariatric surgery in suppressing food intake and achieving weight loss.
Results Summary
The study highlights that bariatric surgery remains the most effective treatment for severe obesity, achieving unparalleled and sustained weight loss by targeting brain pathways involved in food intake regulation. It also suggests potential neural bases for combining pharmacological and surgical interventions when individual treatments fail.
Population
Obese patients, particularly those with severe obesity.
Effective Dosage
Not specified
Duration
Not specified
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
semaglutide | decrease | obesity | obese patients | - | has revolutionized the treatment | #1 |
other gut hormone-based drugs | decrease | weight | obese patients | - | show even greater weight-lowering ability | #2 |
bariatric surgery | decrease | weight | severe obesity patients | - | achieves unparalleled weight loss | #3 |
GLP-1R agonists | decrease | food intake | - | - | suppress food intake | #4 |
bariatric surgery | decrease | food intake | - | - | suppress food intake | #5 |
The glucagon-like peptide 1 receptor (GLP-1R) agonist semaglutide has revolutionized the treatment of obesity, with other gut hormone-based drugs lined up that show even greater weight-lowering ability in obese patients. Nevertheless, bariatric surgery remains the mainstay treatment for severe obesity and achieves unparalleled weight loss that generally stands the test of time. While their underlying mechanisms of action remain incompletely understood, it is clear that the common denominator between GLP-1R agonists and bariatric surgery is that they suppress food intake by targeting the brain. In this Review, we highlight recent preclinical studies using contemporary neuroscientific techniques that provide novel concepts in the neural control of food intake and body weight with reference to endogenous GLP-1, GLP-1R agonists, and bariatric surgery. We start in the periphery with vagal, intestinofugal, and spinal sensory nerves and then progress through the brainstem up to the hypothalamus and finish at non-canonical brain feeding centers such as the zona incerta and lateral septum. Further defining the commonalities and differences between GLP-1R agonists and bariatric surgery in terms of how they target the brain may not only help bridge the gap between pharmacological and surgical interventions for weight loss but also provide a neural basis for their combined use when each individually fails.