This is the first study to directly demonstrate that insulin resistance occurs in the brains of people with Alzheimer's disease.
By Bob DeMarco
Alzheimer's Reading Room
|Steven E. Arnold|
Insulin is an important hormone in many bodily functions, including the health of brain cells.
The team identified extensive abnormalities in the activity of two major signaling pathways for insulin and insulin-like growth factor in non-diabetic people with Alzheimer's disease. These pathways could be targeted with new or existing medicines to potentially help resensitize the brain to insulin and possibly slow down or even improve cognitive decline.
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Brain Insulin Resistance Contributes to Cognitive Decline in Alzheimer's Disease
This is the first study to directly demonstrate that insulin resistance occurs in the brains of people with Alzheimer's disease. The study is now online in the Journal of Clinical Investigation.
"Our research clearly shows that the brain's ability to respond to insulin, which is important for normal brain function, is going offline at some point. Insulin in the brain not only modulates glucose uptake, but also promotes the health of brain cells — their growth, survival, remodeling, and normal functioning.
We believe that brain insulin resistance may be an important contributor to the cognitive decline associated with Alzheimer's disease," said senior author, Steven E. Arnold, MD, professor of Psychiatry and Neurology. Arnold is also the director of the Penn Memory Center, a National Institute on Aging-designated Alzheimer's Disease Core Center.
"If we can prevent brain insulin resistance from occurring, or re-sensitize brain cells to insulin with any of the currently available insulin-sensitizing diabetes medicines, we may be able to slow down, prevent, or perhaps even improve cognitive decline".
The risk of developing Alzheimer's disease is increased by 50 percent in people with diabetes.
Type 2 diabetes is due to insulin resistance and accounts for 90 percent of all diabetes. The defining clinical feature of Type 2 diabetes (and Type 1 "juvenile" diabetes) is hyperglycemia — high levels of sugar in the blood — but there is no evidence that the brain in Alzheimer's is hyperglycemic. Insulin acts differently in the brain than in the rest of the body. Researchers found that insulin resistance of the brain occurs in Alzheimer's disease independent of whether someone has diabetes, by excluding people with a history of diabetes from this study.
The investigators used samples of postmortem brain tissue from non-diabetics who had died with Alzheimer's disease, stimulated the tissue with insulin, and measured how much the insulin activated various proteins in the insulin-signaling pathways. There was less insulin activation in Alzheimer's cases than in tissue from people who had died without brain disease. Other proteins linked to insulin action in the brain were abnormal in Alzheimer's disease samples. These abnormalities were highly correlated with episodic memory and other cognitive disabilities in the Alzheimer's disease patients.
In tissue from people with Alzheimer's disease and mild cognitive impairment (MCI), researchers found that changes to a protein called insulin receptor substrate-1 (IRS-1 pS636/639 and pS616) in brain cells were linked to the severity of memory impairments regardless of age, sex, diabetes history, or apolipoprotein E (APOE) gene status. Levels of IRS-1 were also significantly associated with, but not likely to affect, the presence of amyloid beta plaques and neurofibrillary tangles, the signature markers of Alzheimer's disease. This suggests that insulin resistance contributes to cognitive decline independent of the classical pathology of Alzheimer's disease.
Researchers noted that three insulin-sensitizing medicines are already approved by the FDA for treatment of diabetes. These drugs readily cross the blood-brain barrier and may have therapeutic potential to correct insulin resistance in Alzheimer's disease and MCI. "Clinical trials would need to be conducted to determine the impact the drugs have on Alzheimer's disease and MCI in non-diabetic patients," said Dr. Arnold.
The study's lead author, Konrad Talbot, PhD, is a Research Assistant Professor in Penn's Psychiatry department and co-lead author, Hoau-Yan Wang, Ph.D. is an Associate Medical Professor of Physiology and Pharmacology at the City University of New York. Along with Drs. Talbot and Arnold, the Perelman School of Medicine research team from Penn includes: Hala Kazi, Li-Ying Han, Robert L. Fuino, Krista R. Kawaguchi, Andrew J. Samoyed, from Psychiatry; Bryan A. Wolf (from Children's Hospital of Philadelphia) and John Q. Trojanowski, both from Penn's Department of Pathology and Laboratory Medicine. In addition, other researchers from the City University of New York Medical School and the Rush Alzheimer’s Disease Center from Rush University Medical Center contributed equally to this work.
The study was supported by the Alzheimer's Association (a T.L.L. Temple Foundation Discovery Award), the National Institute on Aging (at Penn: RO1 AG15819, P30 AG10124, at Rush: P30 AG10161) and the Allen H and Selma W. Berkman Charitable Trust. The study would not have been possible without all the patients and families that contributed to this study, as well as the volunteers in the Rush Religious Order Study.
Penn Medicine is one of the world's leading academic medical centers, dedicated to the related missions of medical education, biomedical research, and excellence in patient care. Penn Medicine consists of the Raymond and Ruth Perelman School of Medicine at the University of Pennsylvania (founded in 1765 as the nation's first medical school) and the University of Pennsylvania Health System, which together form a $4.3 billion enterprise.
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