(METHOXYALKYL)THIAZOLES - A NEW SERIES OF POTENT, SELECTIVE, AND ORALLY ACTIVE 5-LIPOXYGENASE INHIBITORS DISPLAYING HIGH ENANTIOSELECTIVITY

(Methoxyalkyl)thiazoles are novel 5-lipoxygenase (5-LPO) inhibitors that are neither redox agents nor iron chelators. Consideration of a hypothetical model of the enzyme active site led to this series which is exemplified by 1-[3-(naphth-2-ylmethoxy)phenyl]-1-(thiazol-2-yl)propyl methyl ether (2d, ICI211965). 2d inhibits cell-free guinea pig 5-LPO activity, LTC4 synthesis in plasma free mouse macrophages, and LTB4 synthesis in rat and human blood (IC50s 0.1-mu-M, 8 nM, 0.5-mu-M, and 0.4-mu-M, respectively) but does not inhibit the synthesis of cyclooxygenase products at concentrations up to 50-mu-M in macrophages and 100-mu-M in blood. 2d is orally active in rat (ex vivo ED50 10 mg/kg in blood taken in 1 h after dosing). SAR studies show that high in vitro potency requires methoxy, thiazolyl, and naphthyl groups and depends critically on the substitution pattern. (Methoxyalkyl)thiazoles are chiral. Resolution of 1-methoxy-6-(naphth-2-ylmethoxy)-1-(thiazol-2-yl)indan (2j, ICI216800) shows that (+)-2j is 50-150-fold more potent than (-)-2j in in vitro assays. Thus, (methoxyalkyl)thiazoles are a new series of orally active, selective 5-LPO inhibitors and represent the first class of inhibitors in which inhibition is mediated by specific, enantioselective interactions with the enzyme.