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Exploration of Long-Chain Vitamin E Metabolites for the Discovery of a Highly Potent, Orally Effective, and Metabolically Stable 5-LOX Inhibitor that Limits Inflammation.

Konstantin NeukirchKhaled AlsabilChau-Phi DinhRossella BilanciaMartin RaaschAlexia VilleIda CerquaGuillaume ViaultDimitri BréardSimona PaceVeronika TemmlElena BrunnerPaul M JordanMarta C MarquesKonstantin LoeserAndré GollowitzerStephan PermannJana GerstmeierStefan LorkowskiHermann StuppnerUlrike GarschaTiago RodriguesGonçalo J L BernardesDaniela SchusterDenis SéraphinPascal RichommeAntonietta RossiAlexander S MosigFiorentina RoviezzoOliver WerzJean-Jacques HelesbeuxAndreas Koeberle
Published in: Journal of medicinal chemistry (2021)
Endogenous long-chain metabolites of vitamin E (LCMs) mediate immune functions by targeting 5-lipoxygenase (5-LOX) and increasing the systemic concentrations of resolvin E3, a specialized proresolving lipid mediator. SAR studies on semisynthesized analogues highlight α-amplexichromanol (27a), which allosterically inhibits 5-LOX, being considerably more potent than endogenous LCMs in human primary immune cells and blood. Other enzymes within lipid mediator biosynthesis were not substantially inhibited, except for microsomal prostaglandin E2 synthase-1. Compound 27a is metabolized by sulfation and β-oxidation in human liver-on-chips and exhibits superior metabolic stability in mice over LCMs. Pharmacokinetic studies show distribution of 27a from plasma to the inflamed peritoneal cavity and lung. In parallel, 5-LOX-derived leukotriene levels decrease, and the inflammatory reaction is suppressed in reconstructed human epidermis, murine peritonitis, and experimental asthma in mice. Our study highlights 27a as an orally active, LCM-inspired drug candidate that limits inflammation with superior potency and metabolic stability to the endogenous lead.
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