Embargoed for Release
Thursday, April 25, 2013
12 p.m. EDT
Thursday, April 25, 2013
12 p.m. EDT
Suppressing protein may stem Alzheimer's disease process
Runaway regulator clogs removal of toxic debris – NIH funded study
Scientists funded by the National Institutes of Health have discovered a potential strategy for developing treatments to stem the disease process in Alzheimer’s disease. It’s based on unclogging removal of toxic debris that accumulates in patients’ brains, by blocking activity of a little-known regulator protein called CD33.“Too much CD33 appears to promote late-onset Alzheimer’s by preventing support cells from clearing out toxic plaques, key risk factors for the disease,” explained Rudolph Tanzi, Ph.D. , of Massachusetts General Hospital and Harvard University, a grantee of the NIH’s National Institute of Mental Health (NIMH) and National Institute on Aging (NIA). “Future medications that impede CD33 activity in the brain might help prevent or treat the disorder.”
Tanzi and colleagues report on their findings April 25, 2013 in the journal Neuron.
Variation in the CD33 gene turned up as one of four prime suspects in the largest genome-wide dragnet of Alzheimer’s-affected families, reported by Tanzi and colleagues in 2008. The gene was known to make a protein that regulates the immune system, but its function in the brain remained elusive. To discover how it might contribute to Alzheimer’s, the researchers brought to bear human genetics, biochemistry and human brain tissue, mouse and cell-based experiments.
Brain levels of beta-amyloid and plaques were also markedly reduced in mice engineered to under-express or lack CD33. Microglia cells in these animals were more efficient at clearing out the debris, which the researchers traced to levels of CD33 on the cell surface.
Evidence also suggested that CD33 works in league with another Alzheimer’s risk gene in microglia to regulate inflammation in the brain.
The study results — and those of a recent rat study that replicated many features of the human illness — add support to the prevailing theory that accumulation of beta-amyloid plaques are hallmarks of Alzheimer’s pathology. They come at a time of ferment in the field, spurred by other recent contradictory evidence suggesting that these presumed culprits might instead play a protective role.
Since increased CD33 activity in microglia impaired beta-amyloid clearance in late onset Alzheimer’s, Tanzi and colleagues are now searching for agents that can cross the blood-brain barrier and block it.
The mission of the NIMH is to transform the understanding and treatment of mental illnesses through basic and clinical research, paving the way for prevention, recovery and cure. For more information, visit the http://www.nimh.nih.gov.
The NIA leads the federal government effort conducting and supporting research on aging and the health and well-being of older people. It provides information on age-related cognitive change and neurodegenerative disease specifically at its Alzheimer’s Disease Education and Referral (ADEAR) Center at http://www.nia.nih.gov/Alzheimers. For expanded information on Alzheimer’s care and resources, please visit the federal government’s portal website http://www.alzheimers.gov. Information on health and on aging generally can be found at http://www.nia.nih.gov. To sign up for e-mail alerts about new findings or publications, please visit either NIA website.
About the National Institutes of Health (NIH): NIH, the nation's medical research agency, includes 27 Institutes and Centers and is a component of the U.S. Department of Health and Human Services. NIH is the primary federal agency conducting and supporting basic, clinical, and translational medical research, and is investigating the causes, treatments, and cures for both common and rare diseases. For more information about NIH and its programs, visit http://www.nih.gov.
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Reference
Alzheimer’s disease risk gene CD33 inhibits microglial uptake of amyoid beta. Griciuc A, Serrano-Pozo A, Parrado AR, Lesinski AN, Asselin CN, Mullin K, Hooli B, Choi SH, Hyman BT, Tanzi RE. Neuron, April 25, 2013.
5R37MH060009-13
5P01AG015379-15
5R01AG008487-15
5P50AG005134-29
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