Design and Structure-Activity Relationships of Isothiocyanates as Potent and Selective -Acylethanolamine-Hydrolyzing Acid Amidase Inhibitors.

-Acylethanolamines are signaling lipid molecules implicated in pathophysiological conditions associated with inflammation and pain. -Acylethanolamine acid amidase (NAAA) favorably hydrolyzes lipid palmitoylethanolamide, which plays a key role in the regulation of inflammatory and pain processes. The synthesis and structure-activity relationship studies encompassing the isothiocyanate pharmacophore have produced potent low nanomolar inhibitors for hNAAA, while exhibiting high selectivity (>100-fold) against other serine hydrolases and cysteine peptidases. We have followed a target-based structure-activity relationship approach, supported by computational methods and known cocrystals of hNAAA. We have identified systemically active inhibitors with good plasma stability ( > 2 h) and microsomal stability ( ∼ 15-30 min) as pharmacological tools to investigate the role of NAAA in inflammation, pain, and drug addiction.