Identification of theBenzyloxyphenyl Pharmacophore:A Structural Unit That Promotes Sodium Channel Slow Inactivation

摘要

Four compounds that contained the N-benzyl 2-amino-3-methoxypropionamide unit were evaluated for their ability to modulate Na⁺ currents in catecholamine A differentiated CAD neuronal cells. The compounds differed by the absence or presence of either a terminal N-acetyl group or a (3-fluoro)benzyloxy moiety positioned at the 4′-benzylamide site. Analysis of whole-cell patch-clamp electrophysiology data showed that the incorporation of the (3-fluoro)benzyloxy unit, to give the (3-fluoro)benzyloxyphenyl pharmacophore, dramatically enhanced the magnitude of Na⁺ channel slow inactivation. In addition, N-acetylation markedly increased the stereoselectivity for Na⁺ channel slow inactivation. Furthermore, we observed that Na⁺ channel frequency (use)-dependent block was maintained upon inclusion of this pharmacophore. Confirmation of the importance of the (3-fluoro)benzyloxyphenyl pharmacophore was shown by examining compounds where the N-benzyl 2-amino-3-methoxypropionamide unit was replaced by a N-benzyl 2-amino-3-methylpropionamide moiety, as well as examining a series of compounds that did not contain an amino acid group but retained the pharmacophore unit. Collectively,the data indicated that the (3-fluoro)benzyloxyphenyl unit is a novelpharmacophore for the modulation of Na⁺ currents.