New weight loss drug target reduces appetite and burns calories without sickness
The discovery could lead to a new treatment for millions of people with obesity and type 2 diabetes who do not respond well to current treatments.
A new weight loss drug target may help reduce appetite and burn calories without causing sickness, research suggests.
The discovery could lead to a new treatment for millions of people with both obesity and type 2 diabetes who do not respond well to current treatments, according to experts.
Millions of people across the world benefit from weight loss drugs based on the hormone GLP-1.
In the new study scientists from the University of Copenhagen describe a powerful new drug candidate that lowers appetite without loss of muscle mass or unpleasant side effects.
Unlike treatments that are currently available, the drug improves insulin sensitivity and increases energy expenditure, the capacity of the body to burn calories.
Associate Professor Zach Gerhart-Hines from the NNF Foundation Centre for Basic Metabolic Research (CBMR) at the University of Copenhagen said: “While GLP-1-based therapies have revolutionised patient care for obesity and type 2 diabetes, safely harnessing energy expenditure and controlling appetite without nausea remain two holy grails in this field.
In the new study, published in the Nature journal, scientists tested the effect of activating a molecule, a target, called the Neurokinin 2 Receptor (NK2R) in mice.
They identified the receptor through genetic screening that suggested it played a role in maintaining energy balance and glucose control.
The researchers found that not only did activating the receptor safely increase calorie-burning, but it also lowered appetite without any signs of nausea.
PhD Student Frederike Sass from CBMR at the University of Copenhagen, and first author of the study, said: “One of the biggest hurdles in drug development is translation between mice and humans.
“This is why we were excited that the benefits of NK2R agonism translated to diabetic and obese nonhuman primates, which represents a big step towards clinical translation.”