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Issue title: Metals in Alzheimer's disease
Guest editors: Andrei C. Miu and Oana Benga
Article type: Research Article
Authors: Yokel, Robert A.; *
Affiliations: College of Pharmacy and Graduate Center for Toxicology, University of Kentucky Medical Center, Lexington, KY, 40536-0082, USA | Program of Cognitive Neuroscience, Department of Psychology, Babeş-Bolyai University, Cluj-Napoca, CJ, Romania
Correspondence: [*] Address for correspondence: Robert A. Yokel, Ph.D., 511C Pharmacy Building, University of Kentucky, 725 Rose Street, Lexington, KY 40536-0082, USA. Tel.: +1 859 257 4855; Fax: +1 859 323 6886; E-mail: [email protected].
Abstract: The etiology of many neurodegenerative diseases has been only partly attributed to acquired traits, suggesting environmental factors may also contribute. Metal dyshomeostasis causes or has been implicated in many neurodegenerative diseases. Metal flux across the blood-brain barrier (the primary route of brain metal uptake) and the choroid plexuses as well as sensory nerve metal uptake from the nasal cavity are reviewed. Transporters that have been described at the blood-brain barrier are listed to illustrate the extensive possibilities for moving substances into and out of the brain. The controversial role of aluminum in Alzheimer's disease, evidence suggesting brain aluminum uptake by transferrin-receptor mediated endocytosis and of aluminum citrate by system Xc- and an organic anion transporter, and results suggesting transporter-mediated aluminum brain efflux are reviewed. The ability of manganese to produce a parkinsonism-like syndrome, evidence suggesting manganese uptake by transferrin- and non-transferrin-dependent mechanisms which may include store-operated calcium channels, and the lack of transporter-mediated manganese brain efflux, are discussed. The evidence for transferrin-dependent and independent mechanisms of brain iron uptake is presented. The copper transporters, ATP7A and ATP7B, and their roles in Menkes and Wilson's diseases, are summarized. Brain zinc uptake is facilitated by L- and D-histidine, but a transporter, if involved, has not been identified. Brain lead uptake may involve a non-energy-dependent process, store-operated calcium channels, and/or an ATP-dependent calcium pump. Methyl mercury can form a complex with L-cysteine that mimics methionine, enabling its transport by the L system. The putative roles of zinc transporters, ZnT and Zip, in regulating brain zinc are discussed. Although brain uptake mechanisms for some metals have been identified, metal efflux from the brain has received little attention, preventing integration of all processes that contribute to brain metal concentrations.
Keywords: Aluminum, blood-brain barrier, brain efflux, brain influx, choroid plexus, iron, lead, manganese, mercury, zinc
DOI: 10.3233/JAD-2006-102-309
Journal: Journal of Alzheimer's Disease, vol. 10, no. 2-3, pp. 223-253, 2006
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