| Title | The cellular biochemistry of cholesterol and statins: insights into the pathophysiology and therapy of Alzheimer's disease. | | Author(s) | Wolozin B, Brown J, Theisler C, Silberman S | | Institution | Department of Pharmacology, Loyola University Medical Center, Bldg. 102, Rm. 3634, 2160 South First Ave., Maywood, IL 60153, USA. bwolozi@lumc.edu. | | Source | CNS Drug Rev 2004; 10(2):127-46. | | MeSH | Alzheimer Disease
Amyloid beta-Protein
Animals
Apolipoproteins
Cholesterol
Enzyme Inhibitors
Humans
Hydroxymethylglutaryl-CoA Reductase Inhibitors
Rats
Research Support, U.S. Gov't, P.H.S.
| | Abstract | The causes of late onset Alzheimer disease (AD) are poorly understood. Although beta-amyloid (Abeta) is thought to play a critical role in the pathophysiology of AD, no genetic evidence directly ties Abeta to late onset AD. This suggests that the accumulation of Abeta and neurodegeneration associated with AD might result from an abnormality that indirectly affects Abeta production or accumulation. Increasing evidence suggests that abnormalities in the metabolism of cholesterol and related molecules, such as cholseterol esters and 24(S) hydroxycholesterol might contribute to the pathophysiology of late onset AD by increasing production of Abeta. 24(S) Hydroxycholesterol is a member of a family of oxidized cholesterol catabolites, termed oxysterols, which function to regulate export of cholesterol from the cell and transcription of genes related to cholesterol metabolism. Cholesterol esters are cholesterol derivatives used for cholesterol storage. Levels of 24(S) hydroxycholesterol increase with AD. Polymorphisms in several different genes important for cholesterol physiology are associated with an increased load or level of Abeta in AD. These genes include apolipoprotein E, cholesterol 24 hydroxylase (Cyp46), acyl-CoA:cholesterol acetyltransferase (ACAT), and the cholesterol transporter ABCA1. Other studies show that levels of cholesterol, or its precursors, are elevated in subjects early in the course of AD. Finally, studies of the processing of amyloid precursor protein show that cholesterol and its catabolites modulate amyloid precursor protein processing and Abeta production. These lines of evidence raise the possibility that genetic abnormalities in cholesterol metabolism might contribute to the pathophysiology of AD. | | Language | eng | | Pub Type(s) | Journal Article
Review
| | PubMed ID | 15179443 |
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