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Article type: Review Article
Authors: Ellis, Bena | Hye, Abdulb | Snowden, Stuart G.b; *
Affiliations: [a] Kings College London, School of Medicine, London, UK | [b] Institute of Psychiatry, Department of Old Age Psychiatry, Kings College London, London, UK
Correspondence: [*] Correspondence to: Stuart G. Snowden, Institute of Psychiatry, Kings College London, De Crespigny Park, London, SE5 8AF,England. Tel.: +44 20 7848 0546; Fax: +44 20 7848 0632; [email protected]
Abstract: Alzheimer’s disease (AD) is the most common neurodegenerative dementia, with the accumulation of extracellular amyloid-β and formation of neurofibrillary tau tangles as leading explanations of pathology. With the difficulties of studying the brain directly, it is hoped that identifying the effect of AD on the metabolite composition of biofluids will provide insights into underlying mechanisms of pathology. The present review identified 705 distinct metabolite reports representing 448 structurally distinct metabolites in six human biofluids, with 147 metabolites increased and 214 metabolites decreased with AD, while 80 metabolites showed inconsistent shifts. Sphingolipid, antioxidant, and glutamate metabolism were found to be strongly associated with AD and were selected for detailed investigation of their role in pathogenesis. In plasma, two ceramides increased and eight sphingomyelins decreased with AD, with total ceramides shown to increase in both serum and cerebrospinal fluid. In general antioxidants were shown to be depleted, with oxidative stress markers elevated in a range of biofluids in patients suggesting AD produces a pro-oxidative environment. Shifts in glutamate and glutamine and elevation of 4-hydroxy-2-nonenal suggests peroxidation of the astrocyte lipid bilayer resulting in reduced glutamate clearance from the synaptic cleft, suggesting a excitotoxicity component to AD pathology; however, due to inconsistencies in literature reports, reliable interpretation is difficult. The present review has shown that metabolite shifts in biofluids can provide valuable insights into potential pathological mechanisms in the brain, with sphingolipid, antioxidant, and glutamate metabolism being implicated in AD pathology.
Keywords: Antioxidant, glutamate, metabolism, metabolomics, neurodegeneration, sphingolipid
DOI: 10.3233/JAD-141899
Journal: Journal of Alzheimer's Disease, vol. 46, no. 2, pp. 313-327, 2015
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