K. Storie scite author profile

Alzheimer's disease (AD) is an age-related disorder characterized by deposition of amyloid ␤-peptide (A␤) and degeneration of neurons in brain regions such as the hippocampus, resulting in progressive cognitive dysfunction. The pathogenesis of AD is tightly linked to A␤ deposition and oxidative stress, but it remains unclear as to how these factors result in neuronal dysfunction and death. We report alterations in sphingolipid and cholesterol metabolism during normal brain aging and in the brains of AD patients that result in accumulation of long-chain ceramides and cholesterol. Membrane-associated oxidative stress occurs in association with the lipid alterations, and exposure of hippocampal neurons to A␤ induces membrane oxidative stress and the accumulation of ceramide species and cholesterol. Treatment of neurons with ␣-tocopherol or an inhibitor of sphingomyelin synthesis prevents accumulation of ceramides and cholesterol and protects them against death induced by A␤. Our findings suggest a sequence of events in the pathogenesis of AD in which A␤ induces membrane-associated oxidative stress, resulting in perturbed ceramide and cholesterol metabolism which, in turn, triggers a neurodegenerative cascade that leads to clinical disease.amyloid ͉ apoptosis ͉ hippocampus ͉ lipid peroxidation ͉ sphingomyelin C hanges that occur in the brain during aging increase the risk of Alzheimer's disease (AD), a disorder involving the progressive deposition of amyloid ␤-peptide (A␤) and associated degeneration of neurons in brain regions involved in learning and memory (1). Two factors that are believed to contribute to neuronal dysfunction and degeneration in AD are increased oxidative stress and increased production of neurotoxic forms of A␤ (2). Alterations in lipid metabolism may also play roles in AD because the risk of AD is affected by inheritance of different isoforms of apolipoprotein E (3), changes in cholesterol metabolism can affect A␤ production in cell culture and in vivo (4-6), and drugs that lower cholesterol levels may reduce the risk of AD (7,8). However, a direct link between alterations in the metabolism of cholesterol and other membrane lipids in AD has not been established, and it is not known whether and how such lipid alterations might lead to neuronal dysfunction and death.Membrane microdomains that are rich in cholesterol and sphingolipids play important roles in various cellular signaling pathways (9, 10). Sphingomyelin is a major source of ceramides, lipid mediators that are generated when sphingomyelin is cleaved by sphingomyelinases, enzymes activated by inflammatory cytokines (11) and oxidative stress (12). Ceramides play important roles in regulating an array of physiological processes, including cell proliferation and differentiation, and a form of programmed cell death called apoptosis (13). Ceramides have been implicated in the pathological death of neurons that occurs in ischemic stroke (14) and Parkinson's disease (15). In the present study, we document significant increases in levels of m...

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Relationship between Alzheimer’s disease clinical stage and Gq/11 in subcellular fractions of frontal cortex

Kelly

Storie

Skamra

et al. 2004

J Neural Transm

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Alzheimer's disease (AD) is associated with impaired coupling of cell surface muscarinic cholinergic receptors to G proteins of the Gq/11 class in brain. This alteration may contribute to progression of cognitive impairment during the course of the disease. We hypothesized that increasing severity of cognitive impairment would be related to decreased levels of Gq/11 detected in key subcellular fractions made from postmortem brain tissue. In this study, we used Western blotting to determine the quantity of Gq/11alpha in P2, synaptic plasma membrane, cytoplasm, microsomal membrane, and lipid raft fractions prepared from superior frontal cortex gray matter of 25 patients with clinical AD confirmed by post-mortem examination. Multiple linear regression analysis that adjusted for age, sex, and education showed a linear relationship between frontal cortex synaptic plasma membrane Gq/11alpha levels and severity of cognitive impairment determined by Mini Mental State score measured proximate to death.

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K. Storie

Involvement of oxidative stress-induced abnormalities in ceramide and cholesterol metabolism in brain aging and Alzheimer's disease

Relationship between Alzheimer’s disease clinical stage and Gq/11 in subcellular fractions of frontal cortex

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