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Neurosci Res. 2006 Nov;56(3):246-52. Epub 2006 Aug 22.

Functional characterization of the brain-to-blood efflux clearance of human amyloid-beta peptide (1-40) across the rat blood-brain barrier.

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Department of Molecular Biopharmacy and Genetics, Graduate School of Pharmaceutical Sciences, Tohoku University, Aoba, Aramaki, Sendai 980-8578, Japan.


The present study sought to characterize the brain-to-blood efflux transport of human amyloid-beta peptide (hAbeta)(1-40) across the blood-brain barrier (BBB) in rats. We determined the apparent brain-to-blood [(125)I]hAbeta(1-40) efflux clearance in rats and found it to be 11.0 microL/(ming brain). There were no significant gender differences in the apparent brain-to-blood [(125)I]hAbeta(1-40) efflux clearance. The brain-to-blood [(125)I]hAbeta(1-40) efflux transport was significantly inhibited by unlabeled hAbeta(1-40) and hAbeta(1-42) by 79.1% and 36.4%, respectively, but was not inhibited by hAbeta(1-43) and hAbeta(40-1), and was significantly facilitated by hAbeta(17-40) by 16.0%, which is one of the major proteolytic fragments of hAbeta(1-40) generated by the action of Abeta degradation enzymes, such as endothelin-converting enzyme. Pre-administration of human receptor-associated protein, a low-density lipoprotein receptor-related protein (LRP) antagonist, reduced the elimination of [(125)I]hAbeta(1-40) by 20.3%, while quinidine or verapamil, P-glycoprotein (P-gp) inhibitors, did not significantly affect the elimination. Western blot analysis suggested that LRP-1 is expressed in rat brain capillary endothelial cells. In conclusion, the partial contribution of LRP-1 and the minor contribution of P-gp suggest that the hAbeta(1-40) elimination from rat brain is mediated by as yet unidentified molecules.

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