{beta}-Secretase Activity Increases with Aging in Human, Monkey, and Mouse Brain

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ß-Secretase Activity Increases with Aging in Human, Monkey, and Mouse Brain

Hiroaki Fukumoto^*, Douglas L. Rosene, Mark B. Moss, Susan Raju^*, Bradley T. Hyman^* and Michael C. Irizarry^*

From the Department of Neurology,^* Alzheimer Disease Research Unit, Massachusetts General Hospital–East, Charlestown, Massachusetts; Department of Anatomy and Neurobiology, Boston University School of Medicine, Boston, Massachusetts; and the Yerkes Regional Primate Research Center, Emory University, Atlanta, Georgia

Amyloid ß protein (Aß) accumulates in thebrains of aging humans, amyloid precursor protein (APP) transgenicmouse lines, and rhesus monkeys. We tested the hypothesis thataging was associated with increased activity of the ß-siteamyloid precursor protein cleaving enzyme (ß-secretase,BACE) in brain. We evaluated BACE activity, BACE protein, andformic acid-extractable Aß levels in cohorts of young(4 months old) and old (14 to 18 months old) nontransgenic mice(n = 16) and Tg2576 APP transgenic mice (n = 17), young (4.4to 12.7 years old) and old (20.9 to 30.4 years old) rhesus monkeys(n = 17), and a wide age range (18 to 92 years old) of nondementedhuman brains (n = 25). Aging was associated with increased brainAß levels in each cohort. Furthermore BACE activityincreased significantly with age in mouse, monkey, and humanbrains, independent of brain region. BACE protein levels, however,were unchanged with age. BACE activity correlated with formicacid-extractable Aß levels in transgenic mouse, nontransgenicmouse, and human cortex, but not in monkey brain. These datasuggest that an age-related increase of BACE activity contributesto the increased production and accumulation of brain Aß,and potentially predisposes to Alzheimer’s disease inhumans.

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