ALZHEIMER AMYLOID B AND THE AGED CEREBRAL VESSEL WALL
New York University School Of Medicine, New York NY
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Abstract
Amyloid beta (Abeta), the major constituent of the amyloid fibrils deposited in cerebral blood vessels and parenchymal plaques Alzheimer s brains, is also normally found as a soluble component (sAbeta) in biological fluids, where it appears to be transported (greater than 90 percent) in association with lipoprotein particles. Although peptides homologous to sAbeta spontaneously polymerize in vitro, the potential contribution of the circulating soluble forms to the deposited Abeta remains unknown. It has been demonstrated that the blood brain barrier has the capability to modulate the uptake of Abeta species and that the interaction of Abeta with carrier apolipoproteins E and J results in either prevention or enhancing of the brain uptake respectively. In addition, an increased amount of sAbeta was found in soluble fractions of Alzheimer s disease and Down s syndrome brain homogenates, and this elevation appears to precede the appearance of Abeta deposits. The overall goal of this proposal is to investigate the contribution of circulating Abeta peptides to the vascular pathology observed in aging, Alzheimer s disease and related disorders. The knowledge of physiologic aspects of sAbeta turn-over, among them the peptide s half-life in circulation, its interaction(s) with circulating transport molecules, the organs involved in its catabolism and/or excretion and the putative cerebrovascular cell receptors responsible for its uptake by the cerebral vessel wall as well as how these physiologic parametes are modulated under pathologic situations will certainly contribute to better understanding of the mechanism(s) leading to the formation of vascular and perhaps parenchymal amyloid deposits. The four specific aims outlined in the project are focused a) to identify cell receptors for free and complexed Abeta species in cerebral endothelial cells (aim 1), b) to investigate the half- life of free and complexed Abeta species in circulation as well as to determine their systemic sites of catabolism and/or excretion (aim 2), c) to ascertain whether oxidation of the carrier lipoparticle may favor complexdisequilibrium resulting either in the release of free sAbeta or in the formation of oxidized Abeta (aim 3), and d) to clarify whether the physiologic variables evaluated in aims 1 and 2 are compromised in aging and Alzheimer s disease (aim 4).
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