Scientists uncover biochemical pathway to block worst fearsMarch 25th, 2009 - 12:31 pm ICT by ANI
Washington, Mar 25 (ANI): Are distressing memories of the past haunting you? Well, then researchers at the Salk Institute for Biological Studies have found a biochemical pathway that can block your worst fears.
The researchers have found that a receptor for glutamate- the most prominent neurotransmitter in the brain- plays a key role in the process of “unlearning.”
The findings could eventually help scientists develop new drug therapies to treat a variety of disorders, including phobias and anxiety disorders, particularly post-traumatic stress disorder (PTSD).
“Most studies focus on ”learning,” but the ”unlearning” process is probably just as important and much less understood. Most people agree that failure to ”unlearn” is a hallmark of post-traumatic stress disorders and if we had a drug that affects this gene it could help soldiers coming back from the war to ”unlearn” their fear memories,” said Stephen F. Heinemann, Ph.D., a professor in the Molecular Neurobiology Laboratory, who led the study.
Post-traumatic stress disorder or PTSD is an anxiety disorder that can develop after exposure to a terrifying event or ordeal in which grave physical harm occurred or was threatened.
If traumatic memories persist inappropriately, sensory cues, sometimes not even recognized consciously, trigger recall of the distressing memories and the associated stress and fear.
For modelling anxiety disorders in humans, researchers train mice to fear a tone by coupling it with a foot shock. If this fear conditioning is followed by repeated exposure to the tone without aversive consequences, the fear will subside, a behavioural change called fear extinction or inhibitory learning.
The researchers focussed on whether mGluR5, short for metabotropic glutamate receptor 5, which had been shown to be involved in several forms of behavioural learning, also plays a role in inhibitory learning.
“Inhibitory learning is thought to be a parallel learning mechanism that requires the acquisition of new information as well as the suppression of previously acquired experiences to be able to adapt to novel situations or environments,” said Heinemann.
When researchers put mice lacking the gene for mGluR5 through the fear extinction-drill, they were unable to shake off their fear of the now harmless tone.
“We could train the mice to be afraid of the tone but they were unable to erase the association between the tone and the negative experience,” said the author of the study.
Then, the researchers tested whether deleting mGluR5 also affected animals” ability to learn new spatial information.
For this, they first trained mice to find a hidden platform placed in a fixed location in the water maze.
Although it took mutant mice slightly longer than control animals to remember the position of the submerged platform, after several days of training the mutants got used to it and were able to find it almost as quickly as the control animals.
When the platform was moved to a different location in the water maze and re-trained the animals, it was found that normal animals quickly adjusted their searching strategy once they realized that the platform had been moved to a different spot.
However, the mice lacking mGluR5 just couldn”t get it into their heads that the platform was no longer there and kept coming back to the original location and took several to finally give up searching in the old location.
“Mice without mGluR5 had severe deficits in tasks that required them to ”unlearn” what they had just learned. We believe that the same mechanism is perturbed in PTSD and that mGluR could provide a potential target for therapeutic intervention,” explained the author.
The study is published in the current issue of the Journal of Neuroscience. (ANI)
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