A brain circuit can help reverse craving for liquor
Scientists have found that they can reverse the urge to drink
alcohol, finds a study, which may open the door to developing drug or
gene therapies to control alcohol addiction.
The team used a laser treatment to temporarily inactivate a specific neuron, which not only reversed alcohol-seeking behaviour but also reduced the physical symptoms of withdrawal.
“This discovery is exciting. It means we have another piece of the puzzle to explain the neural mechanism driving alcohol consumption,” said a researcher.
Although the treatment is far from ready for human use, he believes identifying these neurons opens the door to developing drug therapies or even gene therapies to control alcohol addiction.
For the study, the team tested the role of a subset of neurons in the ensemble, called corticotropin-releasing factor (CRF) neurons. They found these CRF neurons make up 80 per cent of the ensemble.
Rats were surgically implanted with optic fibres aimed to shine light on the CRF neurons — to make them inactive at the flip of a switch.
Once rats were alcohol dependent, the researchers withdrew alcohol, prompting withdrawal symptoms in rats. When they were offered alcohol again, rats drank more than ever. The CeA neuronal ensemble was active, telling rats to drink more.
When the CRF neurons were inactivated, rats immediately returned to their pre-dependent drinking levels. The intense motivation to drink had gone. Inactivating these neurons also reduced the physical symptoms of withdrawal, such as abnormal gait and shaking.
“We were able to characterise, target and manipulate a critical subset of neurons responsible for excessive drinking,” said a researcher.
The team used a laser treatment to temporarily inactivate a specific neuron, which not only reversed alcohol-seeking behaviour but also reduced the physical symptoms of withdrawal.
“This discovery is exciting. It means we have another piece of the puzzle to explain the neural mechanism driving alcohol consumption,” said a researcher.
Although the treatment is far from ready for human use, he believes identifying these neurons opens the door to developing drug therapies or even gene therapies to control alcohol addiction.
For the study, the team tested the role of a subset of neurons in the ensemble, called corticotropin-releasing factor (CRF) neurons. They found these CRF neurons make up 80 per cent of the ensemble.
Rats were surgically implanted with optic fibres aimed to shine light on the CRF neurons — to make them inactive at the flip of a switch.
Once rats were alcohol dependent, the researchers withdrew alcohol, prompting withdrawal symptoms in rats. When they were offered alcohol again, rats drank more than ever. The CeA neuronal ensemble was active, telling rats to drink more.
When the CRF neurons were inactivated, rats immediately returned to their pre-dependent drinking levels. The intense motivation to drink had gone. Inactivating these neurons also reduced the physical symptoms of withdrawal, such as abnormal gait and shaking.
“We were able to characterise, target and manipulate a critical subset of neurons responsible for excessive drinking,” said a researcher.
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Labels: alcohol addiction, corticotropin-releasing factor (CRF) neurons, drug therapies, ensemble, gene therapy, inactivated, reverses, urge to drink alcohol, withdrawal
posted by G S Iyer at 9:17 AM
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