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[December 23, 2008]

Contact: Andre Fenton – 718-270-1556
                                                                                       andre.fenton@downstate.edu

                                                                                       Ron Najman – 718-270-2696
                                                                                       ron.najman@downstate.edu

SUNY Downstate Researchers Find that Memory Storage Molecule Preserves Complex Memories:

Finding Suggests that Unwanted Memories Might Be Erasable Without Harming Other Brain Functions

 

The brain acts as a computer to both store information and process that information. In a computer, separate devices perform these roles; while a hard disk stores information, the central processing unit (CPU) does the processing. But the brain is thought to perform both these functions in the same cells – neurons – leading researchers to ask if distinct molecules within the brain cells serve these different functions.

In a discovery that may one day lead to the ability to erase debilitating painful memories and addictions from the brain, researchers at SUNY Downstate Medical Center have found that a molecule known to preserve memories – PKMzeta – specifically stores complex, high-quality memories that provide detailed information about an animal’s location, fears, and actions, but does not control the ability to process or express this information. This finding suggests that PKMzeta erasure that is designed to target specific debilitating memories could be effective against the offending memory while sparing the computational function of brain.

The findings are detailed in the December edition of PLoS Biology in a paper titled, “PKMzeta Maintains Spatial, Instrumental, and Classically Conditioned Long-Term Memories.” The paper is authored by Andre A. Fenton, PhD, associate professor of physiology and pharmacology, Todd C. Sacktor, MD, professor of physiology and pharmacology and of neurology, and Peter Serrano, PhD, research assistant professor of physiology and pharmacology, at SUNY Downstate, as well as by colleagues at other institutions in Michigan, New York, Wisconsin, and the Czech Republic.   

Dr. Fenton said, “The work published in PLoS reveals that PKMzeta is a general storage mechanism for different types of memory content but, fortunately, that PKMzeta stores only high-quality memories, the kind that provide detailed information rather than general abilities.”

“If further work confirms this view we can expect to one day see therapies based on PKMzeta memory erasure,” Dr. Fenton suggests. “Negative memory erasing not only could help people forget painful experiences, but might be useful in treating depression, general anxiety, phobias, post-traumatic stress, and addictions,” he adds.

Dr. Sacktor said the research “shows that PKMzeta is fundamental for storing many different forms of memory, which previously has been viewed as potentially mediated by distinct mechanisms.”

The PloS Biology paper may be accessed via this link:

http://biology.plosjournals.org/perlserv/?request=get-document&doi=10.1371/journal.pbio.0060318

 

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SUNY Downstate Medical Center, founded in 1860, was the first medical school in the United States to bring teaching out of the lecture hall and to the patient’s bedside. A center of innovation and excellence in research and clinical service delivery, SUNY Downstate Medical Center comprises a College of Medicine, Colleges of Nursing and Health Related Professions, a School of Graduate Studies, a Graduate Public Health Program, University Hospital of Brooklyn, and an Advanced Biotechnology Park and Biotechnology Incubator.
SUNY Downstate ranks eighth nationally in the number of alumni who are on the faculty of American medical schools.  More physicians practicing in New York City have graduated from SUNY Downstate than from any other medical school.