Design, Synthesis, and Antiviral Activity of the Thiazole Positional Isomers of a Potent HIV-1 Entry Inhibitor NBD-14270.

Abstract

The envelope glycoprotein gp120 of human immunodeficiency virus type 1 (HIV-1) plays a critical role in virus entry to the cells by binding to the host cellular protein CD4. Earlier, we reported the design and discovery of a series of highly potent small-molecule entry antagonists containing a thiazole ring (Scaffold A). Since this thiazole ring connected with an ethyl amide linkage represents the molecule's flexible part, we decided to explore substituting Scaffold A with two other positional isomers of the thiazole ring (Scaffold B and C) to evaluate their effect on the antiviral potency and cellular toxicity. Here we report the novel synthesis of two sets of positional thiazole isomers of the NBD-14270 by retrosynthetic analysis approach, their anti-HIV-1 activity, cellular toxicity, and structure-activity relationships. The study revealed that Scaffold A provided the best HIV-1 inhibitors with higher potency and better selectivity index (SI).