Paper

Org. Biomol. Chem., 2005, 3, 2450 - 2457, DOI: 10.1039/b504988a

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Enhanced delivery of -secretase inhibitor DAPT into the brain via an ascorbic acid mediated strategy

Gilles Quéléver, Philippe Kachidian, Christophe Melon, Cédrik Garino, Younes Laras, Nicolas Pietrancosta, Mahmoud Sheha and Jean Louis Kraus

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Inhibition of -secretase, one of the enzymes responsible for the cleavage of the amyloid precursor protein (APP) to produce pathogenic A peptides, is an attractive approach for the treatment of Alzheimer's disease. We designed a -secretase inhibitor bearing an ascorbic acid moiety which allows a specific delivery of the drug to the brain. Through, on the one hand, A peptide production measurements by specific in vitro assays (-secretase cell free assay and cell based assay on HEK 293 APP transfected cells) and on the other hand through pharmacokinetic studies on animal models, the new inhibitor shows a good pharmacokinetic profile as well as a potent -secretase inhibitory activity in vitro. From the obtained results, it is expected that drug 2 will be mainly delivered to the CNS with a low diffusion in the peripheral tissues. Consequently the side effects of this -secretase inhibitor on the immune cells could be reduced.

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