Friday, March 06, 2009

How The Brain Responds To Stress: New And Unexpected Mechanism Identified


Interesting study. Chronic stress does some nasty things to the brain, especially in the hypothalamus, a center for a lot of neural functions, including memory.
How The Brain Responds To Stress: New And Unexpected Mechanism Identified

Switching off a protein causes the brakes to fail in our natural ability to respond to stress.

Chronic stress takes a physical and emotional toll on our bodies and scientists are working on piecing together a medical puzzle to understand how we respond to stress at the cellular level in the brain. Being able to quickly and successfully respond to stress is essential for survival.

Using a rat model, Jaideep Bains, PhD, a University of Calgary scientist and his team of researchers at the Hotchkiss Brain Institute have discovered that neurons in the hypothalamus, the brain's command centre for stress responses, interpret 'off' chemical signals as 'on' chemical signals when stress is perceived. "It's as if the brakes in your car are now acting to speed up the vehicle, rather than slow it down." says Bains.

This unexpected finding is being published in the March 1st online edition of Nature Neuroscience.

Normally, neurons receive different chemical signals that tell them to either switch on or switch off. The off signal or brake only works if the levels of chloride ion in the cells are maintained at a low level.

This is accomplished by a protein, known as KCC2. What Bains and colleagues have shown is that stress turns down the activity of KCC2, thus removing the ability of the brake, a chemical known as GABA, to work properly. A loss of the brain's ability to slow down may explain some of the harmful, emotional consequences of stress.

While the findings provide a new mechanistic explanation of how the brain interprets stress signals, "there is still much work needed in the basic science of this phenomenon before there are any new advances in the medical treatment of stress," says Bains.

"This opens entirely new and quite unexpected avenues for controlling stress responses" says Yves De Koninck, PhD, president-elect of the Canadian Association for Neuroscience and professor of Psychiatry at Laval University.

"I was fascinated when I learned of this work. It has not been clear till now how the neuroendocrine stress response was activated by external stressors. Bains' work shows a complex, yet elegant solution, involving a switch from inhibition to excitation." says Jane Stewart, PhD a behavioural neuroscientist from Concordia University, "these findings may lead to a better understanding of the changes in sensitivity to stress that result from chronic exposure."

Notes:

The research was supported by the Canadian Institutes of Health Research. Bains is an Alberta Heritage Foundation for Medical Research scholar, an associate professor in the Department of Physiology and Biophysics and a member of the Hotchkiss Brain Institute in the Faculty of Medicine at the University of Calgary.

Download a PDF of the study here

About the Faculty of Medicine at the University of Calgary

UCalgary's Faculty of Medicine is a national leader in health research with an international reputation for excellence and innovation in health care research, education and delivery. We train the next generation of health practitioners and move new treatments and diagnostic techniques from the laboratory bench to the hospital bedside, improving patient care. For more information visit http://medicine.ucalgary.ca or follow us on twitter at UofCMedicine on http://www.twitter.com

About the Hotchkiss Brain Institute

The Hotchkiss Brain Institute at UCalgary, consists of more than 100 physicians and scientists who are dedicated to advancing neurological and mental health research and education. The Institute's research strengths in foundational neuroscience (axon biology and regeneration, cerebral blood flow and metabolism, synaptic transmission and neural systems) are leading to new treatments for neurological and psychiatric disorders, aimed at improving quality of life and patient care. More information on the Hotchkiss Brain Institute can be found at http://www.hbi.ucalgary.ca

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