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Nociceptin neurons increase the appetite for high-fat foods

Wed, 04/22/2020 - 09:02
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Researchers at the Max Planck Institute for Metabolism Research in Cologne, Germany, have discovered that a group of nerve cells in the brains of mice promotes the consumption of high-fat food. If these so-called nociceptin neurons in the hypothalamus are activated, the animals start to eat more. The findings, ‘PNOCARC Neurons Promote Hyperphagia and Obesity upon High-Fat-Diet Feeding’, were published in the journal Neuron.

Researchers from the laboratory of Jens Brüning used mice in animal studies to investigate which nerve cells control the overeating of high-calorie, energy dense food. For this purpose, the animals were fed a high-fat diet and examined afterwards.

"Just three days of a high-fat diet feeding were sufficient to detect increased activity of nociceptin neurons in a specific region of the brain, the arcuate nucleus of the hypothalamus," explained Dr Alexander Jais, first author of the current study.

In a set of experiments, nociceptin neurons of mice were selectively removed from the arcuate nucleus of the hypothalamus. As a result, these mice no longer ‘over-consumed’ the high-fat diet. The intake of their normal food was not affected. The nociceptin neurons can therefore specifically control the intake of high-fat food.

Following up these findings, the researchers used genetically modified mice in which the activity of the nociceptin neurons in the hypothalamus could be controlled by light.

"The activation of these brain cells led to an excessive food intake of the animals," added Jais. "The activation of nociceptin neurons inhibits certain neurons which regulate satiety and therefore the animals ingest more food."

Consumption of energy-dense food leads to a disruption of energy balance and to an increased intake of calories.

"We are constantly surrounded by cheap, palatable, energy-dense foods and our brains are wired in such a way that we particularly prefer these foods. It is still not known why some people manage to eat only as much as they need and others do not. The individual activity of nociceptin neurons could be an important piece to the puzzle. Their activity promotes overconsumption, making them an attractive target for the prevention and treatment of obesity."

"The current COVID-19 pandemic reminds us that obesity and associated metabolic diseases, such as diabetes, are risk factors and therefore a better understanding of the central nervous system control of food intake is urgently needed, with particular emphasis on high-calorie, fat- and carbohydrate-rich foods," concluded Jais.

To access this paper, please click here