Abstract

Clathrodin, alkaloid isolated from Agelas sponges, was reported in 1995 as a voltage-gated sodium channel modulator. Here we describe the design and synthesis of conformationally restricted clathrodin analogues incorporating the 4,5,6,7-tetrahydrobenzo[d]thiazol-2-amine moiety and evaluation of their modulatory activities on human voltage-gated sodium channel isoforms Nav1.3, Nav1.4 and Nav1.7, as well as their selectivity against cardiac isoform Nav1.5. Compounds were shown to act as state-dependent modulators of Nav1.3, Nav1.4 and Nav1.7 with IC50 values in the lower micromolar range for the open-inactivated state of the channels. Preliminary structure–activity relationship studies have revealed the importance of hydrophobic interactions for binding to all three tested isoforms. Compound 4e with IC50 value of 8 μM against Nav1.4 represents a novel selective state-dependent Nav1.4 channel modulator.

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