Neurobiological mechanisms involved in the loss of control in a study in mice revealed

Neurobiological mechanisms involved in the loss of control in a study in mice revealed
From left to right: Rafael Maldonado, Elena Martín-García and Laura Domingo. Credit: UPF.

Researchers at UPF, in collaboration with researchers from the University of Mainz (Germany), the Center for Genomic Regulation, Instituto Cajal, Johannes Gutenberg University (Germany), the Autonomous University Barcelona and Hospital del Mar have identified for the first time the involvement of certain cortical areas in the brain in the loss of control over food intake. In the study, conducted in rodents and published today in Nature Communications, they have discovered a specific mechanism in this crucial cortical circuit for food addiction that involves a loss of control over intake. The study was led by the scientists Rafael Maldonado, Elena Martín-García and Beat Lutz.

This addiction is related to a loss of control over that is associated with obesity and eating disorders, whose prevalence is increasing worldwide. Loss of control over food intake has a major socioeconomic impact, there are no effective treatments and it shares common neurobiological mechanisms with . Both brain disorders are chronic, multifactorial and complex, and result from the interaction of multiple genes and environmental factors.

In this new study, the researchers have identified the neurobiological mechanisms that allow the development of addictive behaviour to food. To do so, they used a rodent model that mimics the behavioural abnormalities associated with this addiction in humans and leads to a loss of control over food intake: high motivation and impulsiveness for food, and the compulsive search for food, despite the negative effects of such behaviour. They used innovative tools to characterize the features of resilience and vulnerability to the disorder at genetic, cellular and behavioural levels.

Another finding of the study is the role of the D2 dopamine receptor at cortical level in food addiction. This receptor had previously been implicated in drug addiction due to its action in subcortical areas and the in particular. This study identifies for the first time how food addiction produces an overexpression of the gene of the dopamine D2 receptor in the prefrontal cortex and this overexpression is directly involved in the loss of control over food intake.

"The identification of a specific cortical area in the loss of control over intake may be of interest for the prevention and treatment of this disorder. Cortical areas are the brain structures of the highest hierarchical order to control behaviour and thus represent brain areas of great interest for treatment," proposes Rafael Maldonado, director of the Neuropharmacology Laboratory—Neurophar at the Department of Experimental and Health Sciences (DCEXS) of UPF.

They demonstrated that the activation of the circuit gives better control over reinforcement, while a decrease in the activity of the circuit leads to a loss of inhibitory control and greater susceptibility of the animal to developing addictive behaviour. "Therefore, we suggest that a possible therapeutic target for this disease could be the stimulation of this brain circuit for which we currently dispose of fairly precise techniques," he adds. This article provides more scientific evidence to the debate on the existence of . "There is some controversy at present as to how to classify this important behavioural disorder and our findings strengthen the idea that this addiction exists and shares common features with drug ."

Cortical control in decision-making

One of the neurobiological mechanisms they characterized was the circuit that goes from the to nucleus accumbens, i.e., from cortical areas to areas of the limbic system related to reward and pleasure. "We noted that addicted animals show a decrease in activity in this specific circuit, whereas the circuit of resilient animals is more active," explains Elena Martín-García.

The mechanisms related to addictions that have been most studied in the past are those related to the limbic system, more primitive related to the reward system. Food consumption causes an increase in dopamine in the nucleus accumbens, which provides pleasure. "However, in this study, we have focused on the less studied part, which is decision-making at a higher level, i.e., how this system is controlled by the cortical areas," says Laura Domingo, first author of the article.

More information: Laura Domingo-Rodriguez et al, A specific prelimbic-nucleus accumbens pathway controls resilience versus vulnerability to food addiction, Nature Communications (2020). DOI: 10.1038/s41467-020-14458-y

Journal information: Nature Communications
Provided by Universitat Pompeu Fabra - Barcelona
Citation: Neurobiological mechanisms involved in the loss of control in a study in mice revealed (2020, February 7) retrieved 28 March 2024 from https://medicalxpress.com/news/2020-02-neurobiological-mechanisms-involved-loss-mice.html
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