Liraglutide Boosts Associative Learning in People with Obesity

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Obesity leads to altered energy metabolism and reduced insulin sensitivity of cells. The so-called “anti-obesity drugs” such as liraglutide are increasingly used to treat obesity and have caused tremendous interest, especially in the USA. Researchers in Germany have now shown in people with obesity that reduced insulin sensitivity affects learning of sensory associations. The results, published in Nature Metabolism, showed that a single dose of liraglutide was able to normalise these changes and restore the underlying brain circuit function.

The brain must be able to form associations in order to control behaviour. This involves, for example, associating a neutral external stimulus with a consequence following the stimulus. In this way, the brain learns what the implication of handling of the first stimulus are. Associative learning is the basis for forming neural connections and gives stimuli their motivational force. It is essentially controlled by a brain region called the dopaminergic midbrain. This region has many receptors for the body’s signalling molecules, such as insulin, and can thus adapt behaviour to the body’s physiological needs.

But what happens when the body’s insulin sensitivity is reduced due to obesity? Does this change brain activity, ability to learn associations and thus behaviour? Researchers at the Max Planck Institute for Metabolism Research have now measured how well the learning of associations works in participants with normal body weight (high insulin sensitivity, 30 volunteers) and in participants with obesity (reduced insulin sensitivity, 24 volunteers), and if this learning process is influenced by the anti-obesity drug liraglutide.

Low insulin sensitivity reduces the brain’s ability to associate sensory stimuli.

In the evening, they injected the participants with either the drug liraglutide or a placebo in the evening. Liraglutide is a so-called GLP-1 agonist, which activates the GLP-1 receptor in the body, stimulating insulin production and producing a feeling of satiety. It is often used to treat obesity and type 2 diabetes and is given once a day. The next morning, the subjects were given a learning task that allowed the researchers to measure how well associative learning works. They found that the ability to associate sensory stimuli was less pronounced in participants with obesity than in those of normal weight, and that brain activity was reduced in the areas encoding this learning behaviour.

After just one dose of liraglutide, participants with obesity no longer showed these impairments, and no difference in brain activity was seen between participants with normal weight and obesity. In other words, the drug returned the brain activity to the state of normal-weight subjects.

“These findings are of fundamental importance. We show here that basic behaviours such as associative learning depend not only on external environmental conditions but also on the body’s metabolic state. So, whether someone has overweight or not also determines how the brain learns to associate sensory signals and what motivation is generated. The normalisation we achieved with the drug in subjects with obesity, therefore, fits with studies showing that these drugs restore a normal feeling of satiety, causing people to eat less and therefore lose weight,” says study leader Marc Tittgemeyer from the Max Planck Institute for Metabolism Research.

“While it is encouraging that available drugs have a positive effect on brain activity in obesity, it is alarming that changes in brain performance occur even in young people with obesity without other medical conditions. Obesity prevention should play a much greater role in our healthcare system in the future. Lifelong medication is the less preferred option in comparison primary prevention of obesity and associated complications,” says Ruth Hanßen, first author of the study and a physician at the University Hospital of Cologne.

Source: Max Planck Institute for Biology of Ageing