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The discovery of a simple switch in the brain may let you eat what you want and stay slim, according to a new study.
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WASHINGTON: The discovery of a simple switch in the brain may let you
eat what you want and stay slim, according to a new study.
Preventing weight gain, obesity, and diabetes could be as simple as keeping a nuclear receptor from being activated in a small part of the brain, researchers have found.
When the researchers at Yale School of Medicine blocked the effects of the nuclear receptor PPARgamma in a small number of brain cells in mice, the animals ate less and became resistant to a high-fat diet.
"These animals ate fat and sugar, and did not gain weight, while their control littermates did," said lead author Sabrina Diano, professor in the Department of Obstetrics, Gynecology & Reproductive Sciences at Yale School of Medicine.
"We showed that the PPARgamma receptor in neurons that produce POMC could control responses to a high-fat diet without resulting in obesity," Diano said.
POMC neurons are found in the hypothalamus and regulate food intake. They are the neurons that when activated make you feel full and curb appetite. PPARgamma regulates the activation of these neurons.
Diano and her team studied transgenic mice that were genetically engineered to delete the PPARgamma receptor from POMC neurons. They wanted to see if they could prevent the obesity associated with a high-fat, high-sugar diet.
"When we blocked PPARgamma in these hypothalamic cells, we found an increased level of free radical formation in POMC neurons, and they were more active," said Diano.
The findings also have key implications in diabetes. PPARgamma is a target of thiazolidinedione (TZD), a class of drugs used to treat type 2 diabetes. They lower blood-glucose levels, however, patients gain weight on these medications.
"Our study suggests that the increased weight gain in diabetic patients treated with TZD could be due to the effect of this drug in the brain, therefore, targeting peripheral PPARgamma to treat type 2 diabetes should be done by developing TZD compounds that can't penetrate the brain," said Diano.
"We could keep the benefits of TZD without the side-effects of weight gain. Our next steps in this research are to test this theory in diabetes mouse models," said Diano.
The study was published in The Journal of Clinical Investigation (JCI).
Preventing weight gain, obesity, and diabetes could be as simple as keeping a nuclear receptor from being activated in a small part of the brain, researchers have found.
When the researchers at Yale School of Medicine blocked the effects of the nuclear receptor PPARgamma in a small number of brain cells in mice, the animals ate less and became resistant to a high-fat diet.
"These animals ate fat and sugar, and did not gain weight, while their control littermates did," said lead author Sabrina Diano, professor in the Department of Obstetrics, Gynecology & Reproductive Sciences at Yale School of Medicine.
"We showed that the PPARgamma receptor in neurons that produce POMC could control responses to a high-fat diet without resulting in obesity," Diano said.
POMC neurons are found in the hypothalamus and regulate food intake. They are the neurons that when activated make you feel full and curb appetite. PPARgamma regulates the activation of these neurons.
Diano and her team studied transgenic mice that were genetically engineered to delete the PPARgamma receptor from POMC neurons. They wanted to see if they could prevent the obesity associated with a high-fat, high-sugar diet.
"When we blocked PPARgamma in these hypothalamic cells, we found an increased level of free radical formation in POMC neurons, and they were more active," said Diano.
The findings also have key implications in diabetes. PPARgamma is a target of thiazolidinedione (TZD), a class of drugs used to treat type 2 diabetes. They lower blood-glucose levels, however, patients gain weight on these medications.
"Our study suggests that the increased weight gain in diabetic patients treated with TZD could be due to the effect of this drug in the brain, therefore, targeting peripheral PPARgamma to treat type 2 diabetes should be done by developing TZD compounds that can't penetrate the brain," said Diano.
"We could keep the benefits of TZD without the side-effects of weight gain. Our next steps in this research are to test this theory in diabetes mouse models," said Diano.
The study was published in The Journal of Clinical Investigation (JCI).
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