Cholesterol retention in Alzheimer's brain is responsible for high beta- and gamma-secretase activities and Abeta production

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TypeArticle
Journal titleNeurobiol.Dis.
Volume29
Issue3
Pages422437; # of pages: 16
SubjectAged; Aged,80 and over; Alzheimer Disease; Amyloid beta-Protein; Amyloid Precursor Protein Secretases; Animals; biosynthesis; Brain; Canada; cell; Cell Line,Tumor; CELLS; Cells,Cultured; Cholesterol; Comparative Study; DISEASE; Enzyme Activation; enzymology; Female; Human; Humans; In Vitro; Male; metabolism; Mice; NUCLEAR; PATHOGENESIS; pathology; PATHWAY; physiology; PROGRAM; protein; receptor; secretion
AbstractAlzheimer's disease (AD) is characterized by overproduction of A beta derived from APP cleavage via beta- and gamma-secretase pathway. Recent evidence has linked altered cholesterol metabolism to AD pathogenesis. In this study, we show that AD brain had significant cholesterol retention and high beta- and gamma-secretase activities as compared to age-matched non-demented controls (ND). Over one-half of AD patients had an apoE4 allele but none of the ND. beta- and gamma-secretase activities were significantly stimulated in vitro by 40 and 80 microM cholesterol in AD and ND brains, respectively. Both secretase activities in AD brain were more sensitive to cholesterol (40 microM) than those of ND (80 microM). Filipin-stained cholesterol overlapped with BACE and A beta in AD brain sections. Cholesterol (10-80 microM) added to N2a cultures significantly increased cellular cholesterol, beta- and gamma-secretase activities and A beta secretion. Similarly, addition of cholesterol (20-80 microM) to cell lysates stimulated both in vitro secretase activities. Ergosterol slightly decreased beta-secretase activity at 20-80 microM, but strongly inhibited gamma-secretase activity at 40 microM. Cholesterol depletion reduced cellular cholesterol, beta-secretase activity and A beta secretion. Transcription factor profiling shows that several key nuclear receptors involving cholesterol metabolism were significantly altered in AD brain, including decreased LXR-beta, PPAR and TR, and increased RXR. Treatment of N2a cells with LXR, RXR or PPAR agonists strongly stimulated cellular cholesterol efflux to HDL and reduced cellular cholesterol and beta-/gamma-secretase activities. This study provides direct evidence that cholesterol homeostasis is impaired in AD brain and suggests that altered levels or activities of nuclear receptors may contribute to cholesterol retention which likely enhances beta- and gamma-secretase activities and A beta production in human brain
Publication date
LanguageEnglish
AffiliationNRC Institute for Biological Sciences; National Research Council Canada
Peer reviewedNo
NRC numberXIONG2008
XIONG2007
NPARC number9361654
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Record identifierce53f5a0-418e-4488-8512-5237ee2d0fbd
Record created2009-07-10
Record modified2016-05-09
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