A protein found in cells throughout the body must exist in a specific set of brain neurons to prevent weight gain after chronic feeding on high-calorie meals, revealed a study by researchers at UT Southwestern Medical Center.
Nicknamed the "longevity" protein because of its apparent role in mediating the effects of dietary restriction on life span, SIRT1 has been studied as a potential target for anti-aging drugs.
Prior research has also shown that this metabolic sensor protein in peripheral tissues plays an important role in regulating metabolism, but its physiological relevance in brain neurons remained unclear.
"This is the first study to show that SIRT1 in hypothalamic neurons, specifically POMC neurons, is required for preventing diet-induced obesity and maintaining normal body weight," said Dr. Roberto Coppari, senior author of the mouse study,
POMC, or pro-opiomelanocortin, neurons are found in the hypothalamus region of the brain and are known to play an important role in suppressing appetite and inducing weight loss. There are about 3,000 POMC neurons in a mouse brain.
The researchers genetically engineered mice to lack SIRT1 only in these specific hypothalamic neurons.
They found that when fed a high-calorie diet, the mice lacking SIRT1 in POMC neurons gained more weight and were generally more susceptible to diet-induced obesity than those with the metabolic sensor protein intact.
The mutant mice also had almost twice as much abdominal fat and more of the hormone leptin than those mice with their SIRT1 intact, despite the fact that all the mice maintained the same food intake and movement levels.
"We found that SIRT1 must be present in POMC neurons in order for the hormone leptin to properly engage its receptors in these neurons. Without SIRT1, leptin sensing is altered and the animals gain more fat mass when fed a high-calorie diet," said Coppari.
In addition, the researchers found that SIRT1 must be present in POMC neurons for leptin to stimulate the remodeling of white adipose tissue into brown fat tissue, which "burns" fat to generate heat.
"When SIRT1 is present in POMC neurons, the neurons properly convey a signal from leptin to the white perigonadal fat, which is designed to store energy. This signal is needed for the fat to undergo a remodeling process and expand the brown fat cells component as a protective measure against obesity," said Coppari.
"If you don''t have these kinds of defense mechanisms, you likely become hypersensitive to diet-induced obesity. A primary defect in SIRT1 in POMC neurons might be present in some individuals who are more prone to develop obesity when constantly exposed to an abundance of high-fat, high-calorie foods," he added.
Coppari said the idea of a drug that selectively could target neurons controlling specific fat depots - and that could trigger the remodelling of white fat into brown fat - has high potential.
The study has been published in the latest issue of Cell Metabolism.
Prior research has also shown that this metabolic sensor protein in peripheral tissues plays an important role in regulating metabolism, but its physiological relevance in brain neurons remained unclear.
"This is the first study to show that SIRT1 in hypothalamic neurons, specifically POMC neurons, is required for preventing diet-induced obesity and maintaining normal body weight," said Dr. Roberto Coppari, senior author of the mouse study,
POMC, or pro-opiomelanocortin, neurons are found in the hypothalamus region of the brain and are known to play an important role in suppressing appetite and inducing weight loss. There are about 3,000 POMC neurons in a mouse brain.
The researchers genetically engineered mice to lack SIRT1 only in these specific hypothalamic neurons.
They found that when fed a high-calorie diet, the mice lacking SIRT1 in POMC neurons gained more weight and were generally more susceptible to diet-induced obesity than those with the metabolic sensor protein intact.
The mutant mice also had almost twice as much abdominal fat and more of the hormone leptin than those mice with their SIRT1 intact, despite the fact that all the mice maintained the same food intake and movement levels.
"We found that SIRT1 must be present in POMC neurons in order for the hormone leptin to properly engage its receptors in these neurons. Without SIRT1, leptin sensing is altered and the animals gain more fat mass when fed a high-calorie diet," said Coppari.
In addition, the researchers found that SIRT1 must be present in POMC neurons for leptin to stimulate the remodeling of white adipose tissue into brown fat tissue, which "burns" fat to generate heat.
"When SIRT1 is present in POMC neurons, the neurons properly convey a signal from leptin to the white perigonadal fat, which is designed to store energy. This signal is needed for the fat to undergo a remodeling process and expand the brown fat cells component as a protective measure against obesity," said Coppari.
"If you don''t have these kinds of defense mechanisms, you likely become hypersensitive to diet-induced obesity. A primary defect in SIRT1 in POMC neurons might be present in some individuals who are more prone to develop obesity when constantly exposed to an abundance of high-fat, high-calorie foods," he added.
Coppari said the idea of a drug that selectively could target neurons controlling specific fat depots - and that could trigger the remodelling of white fat into brown fat - has high potential.
The study has been published in the latest issue of Cell Metabolism.
--ANI
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