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Dopamine study sheds new light on drug addiction
March 02, 2005A paper published in today's issue of Science has challenged beliefs about the role of dopamine in the brain, which could lead to new treatments for Parkinson's disease, schizophrenia and drug addiction. The research suggests that dopamine has a far wider, less specialised role than previously hypothesised.
The paper, written by experts at the University of Sheffield and Macquarie University in Sydney, focused on the role of dopamine as a neurotransmitter. Researchers sought to determine the information that dopamine containing cells pass on to the structures in the brain that receive their message.
Dr Paul Overton, co-author of the study explains, "Less than one per cent of the neurons in the brain use dopamine as a neurotransmitter, but any change in its levels can have devastating effects. Too much dopamine can lead to schizophrenia, whereas not enough causes Parkinson's Disease. Drug addicts also have a malfunction in their dopamine systems, so learning more about the way this chemical works could lead to better treatments for a range of conditions."
"The dominant theory in the field suggested that the dopamine message carries information specifically about reward. Brain systems involved in reward fulfil a vital function in that they underpin the motivation to seek out food, water and all of the other things that we need to survive, and play a central role in learning. We tend to do more of the things that lead to nice outcomes - that is, we learn to according to the effect that our actions have".
"Much of the previous work concerning dopamine and reward has used visual 'stimuli'. So, our team focused on the visual responsiveness of dopamine cells and, rather than decoding the dopamine message itself, we looked at the message that the dopamine cells were being given by other bits of the brain to pass on".
"We found that the visual information that the dopamine message carries is provided by the superior colliculus, which is one of the oldest parts of the visual system in terms of evolution. The colliculus is the brain's 'burglar alarm', and hence the visual response properties of its cells are fairly primitive. We concluded that it is unlikely that such a visually primitive structure would be allowed (by evolution) to provide the sensory input to a system which was involved in something as vital as reward. Instead, we propose that, as a burglar alarm, the colliculus provides information to dopamine cells about the occurrence of biologically important stimuli, which then pass this 'salience' based signal to other brain areas. In other words, the remit of the dopamine message goes beyond reward to include all stimuli which are pertinent to the animal's survival".
"This conclusion has particular relevance to people suffering from drug addiction. It could explain why a dopamine malfunction can make it so hard for addicts to stay 'on the wagon' when they are around their drug of choice. Basically, the dopamine malfunction, enhancing stimulus salience, could cause the brain to be unable to ignore stimuli associated with the drug, causing relapse and cravings."
Sheffield, University of
"The dominant theory in the field suggested that the dopamine message carries information specifically about reward. Brain systems involved in reward fulfil a vital function in that they underpin the motivation to seek out food, water and all of the other things that we need to survive, and play a central role in learning. We tend to do more of the things that lead to nice outcomes - that is, we learn to according to the effect that our actions have".
"Much of the previous work concerning dopamine and reward has used visual 'stimuli'. So, our team focused on the visual responsiveness of dopamine cells and, rather than decoding the dopamine message itself, we looked at the message that the dopamine cells were being given by other bits of the brain to pass on".
"We found that the visual information that the dopamine message carries is provided by the superior colliculus, which is one of the oldest parts of the visual system in terms of evolution. The colliculus is the brain's 'burglar alarm', and hence the visual response properties of its cells are fairly primitive. We concluded that it is unlikely that such a visually primitive structure would be allowed (by evolution) to provide the sensory input to a system which was involved in something as vital as reward. Instead, we propose that, as a burglar alarm, the colliculus provides information to dopamine cells about the occurrence of biologically important stimuli, which then pass this 'salience' based signal to other brain areas. In other words, the remit of the dopamine message goes beyond reward to include all stimuli which are pertinent to the animal's survival".
"This conclusion has particular relevance to people suffering from drug addiction. It could explain why a dopamine malfunction can make it so hard for addicts to stay 'on the wagon' when they are around their drug of choice. Basically, the dopamine malfunction, enhancing stimulus salience, could cause the brain to be unable to ignore stimuli associated with the drug, causing relapse and cravings."
Sheffield, University of
Schizophrenia Current Events and Schizophrenia News RSSSchizophrenia gene's role may be broader, more potent, than thought
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Full recovery now possible for an 'untreatable' mental illness
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Immune system activated in schizophrenia
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Why can't chimps speak?
If humans are genetically related to chimps, why did our brains develop the innate ability for language and speech while theirs did not?
Developmental delay could stem from nicotinic receptor deletion
The loss of a gene through deletion of genetic material on chromosome 15 is associated with significant abnormalities in learning and behavior, said a consortium of researchers led by Baylor College of Medicine (www.bcm.edu) in a report that appears online today in the journal Nature Genetics.
Fighting Sleep, Penn Researchers Reverse the Cognitive Impairment Caused By Sleep Deprivation
A research collaboration led by biologists and neuroscientists at the University of Pennsylvania has found a molecular pathway in the brain that is the cause of cognitive impairment due to sleep deprivation.
Testicular tumors may explain why some diseases are more common in children of older fathers
A rare form of testicular tumour has provided scientists with new insights into how genetic changes (mutations) arise in our children.
CSHL-led team discovers rare mutation dramatically increasing schizophrenia risk
An international team of researchers led by geneticist Jonathan Sebat, Ph.D., of Cold Spring Harbor Laboratory (CSHL), has identified a mutation on human chromosome 16 that substantially increases risk for schizophrenia.
Faulty 'wiring' in the brain triggers onset of schizophrenia
A new study by researchers at the Institute of Psychiatry (IoP), King's College London has discovered abnormalities in the white matter of the brain that seem to be critical for the timing of schizophrenia.
General anesthetics lead to learning disabilities in animal models
Studies by researchers at Wake Forest University School of Medicine have shown that blocking the NMDA receptor in immature rats leads to profound, rapid brain injury and disruption of auditory function as the animals mature.
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