Health & Medicine - Posted by Bill Hathaway-Yale on Friday, February 22, 2013 11:52 - 1 Comment
Brain’s ‘sketch pad’ goes blank in schizophrenia
YALE (US) — Brain receptors that are often altered in people with schizophrenia and Alzheimer’s may play a role in our ability to store and manipulate thoughts on a sort of mental sketch pad.
Good mental health and clear thinking depend upon our ability to generate mental representations in our brains without any sensory stimulation from the environment. These cognitive abilities arise from highly evolved circuits in the prefrontal cortex.
“Insults to these highly evolved cortical circuits impair the ability to create and maintain our mental representations of the world, which is the basis of higher cognition,” says Amy Arnsten, professor of neurobiology at Yale University and senior author of the paper published in the journal Neuron.
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Mathematical models by former Yale neurobiologist Xiao-Jing Wang, now of New York University, predicted that in order to maintain these visual representations the prefrontal cortex must rely on a family of receptors that allow for slow, steady firing of neurons.
New work by Arnsten and colleagues shows that NMDA-NR2B receptors involved in glutamate signaling regulate this neuronal firing. These receptors, studied at Yale for more than a decade, are responsible for activity of highly evolved brain circuits found especially in primates.
Earlier studies have shown these types of NMDA receptors are often altered in patients with schizophrenia. The recent study suggests that those suffering from the disease may be unable to hold onto a stable view of the world.
Also, these receptors seem to be altered in Alzheimer’s patients, which may contribute to the cognitive deficits of dementia.
Work in the lab of John Krystal, chair of the department of psychiatry at Yale, indicates that the anesthetic ketamine, abused as a street drug, blocks NMDA receptors and can mimic some of the symptoms of schizophrenia.
The current study in Neuron suggests that ketamine may reduce the firing of the same higher-order neural circuits that are decimated in schizophrenia.
“Identifying the receptor needed for higher cognition may help us to understand why certain genetic insults lead to cognitive impairment and will help us to develop strategies for treating these debilitating disorders,” Arnsten says.
The National Institutes of Health supported the study.
Source: Yale University