A new century of Alzheimer's disease research
Mayo Clinic scientists aim to improve risk prediction, diagnosis and treatment
JACKSONVILLE, Fla. -- Imagine the day when a routine visit to the family doctor includes a simple blood test to predict the risk for developing Alzheimer’s disease (AD). If the test returns a worrisome result -- too many sticky brain proteins that might begin to gum up memory and thought in 10 to 15 years -- a person could be offered an aspirin-like pill to keep those proteins in check.
That is the future a visionary team of researchers at Mayo Clinic’s campus in Jacksonville aims to reach.
“It will be very straightforward, like today’s blood cholesterol test to gauge risk of developing heart disease,” says Steve Younkin, M.D., Ph.D., a Mayo Clinic neuroscientist. “If your cholesterol profile is out of whack, treatment with a simple statin drug can reduce that risk. Our goal is to develop a similar kind of testing and treatment to keep the brain in balance.”
Researchers and physicians at Mayo Clinic’s sites in Florida, Minnesota and Arizona are studying various aspects of Alzheimer’s. When combined, the elements provide a comprehensive approach to unraveling the mystery of the disease: from understanding why it develops, to how it can be diagnosed early, treated effectively and, ultimately, prevented.
Much of the basic lab, animal research and drug discovery occurs in Jacksonville. Mayo researchers in Jacksonville, Rochester, Minn., and Scottsdale, Ariz., are studying aging’s effects in thousands of elderly individuals. Researchers want to know how aging changes brain structure, thought processes and blood chemistry, so they can model and predict progression to Alzheimer’s disease.
“Whether it is working with people or doing lab science, we have really tried to focus our research on ways in which we can make a difference in the lives of our patients, both today and tomorrow,” says Todd Golde, M.D., an Alzheimer’s disease researcher who chairs the Department of Neurosciences at Mayo Clinic Jacksonville.
And, by all accounts, that focus will likely begin to pay off in this second century of Alzheimer’s research. Until 1986, some 80 years after German physician Alois Alzheimer discovered the brain abnormalities associated with the disease, physicians understood little about Alzheimer’s disease. But several decades ago, the pace of discovery began to accelerate, says Ronald Petersen, M.D., Ph.D., a Mayo physician in Rochester who directs the Mayo Clinic Alzheimer’s Disease Research Center (ADRC), encompassing the research programs in Jacksonville and Rochester.
“We have moved a great distance forward in understanding what might be the key, or, in the least, an important aspect of this disease,” Dr. Petersen says. “And we are at the threshold of developing therapies that we hope will eventually impact Alzheimer’s disease.”
“We are not slogging through a fog anymore,” says Dr. Younkin, who has helped define the direction that Alzheimer’s research has taken in many of the world’s research labs. “We can see the top of the hill for the first time, and while we probably won’t get where we want to be for many years, it is really exciting.” Dr. Younkin helped discover that a single brain protein, known as amyloid-beta 42 (AB42), appears to be the central player in the disorder. And much of Alzheimer’s drug research is focused on different ways to attack Aâ42, believed to be the most vulnerable target -- the Achilles’ heel -- of Alzheimer’s disease.
“We know AB42 is always on the scene and is clearly important,” says Richard Caselli, M.D., who heads Alzheimer’s disease research at Mayo Clinic in Arizona. “So the prevailing model is that AB42 is it, and if you can somehow control AB42, you can control Alzheimer’s disease.”
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