第二代基于氨基甲酸酯的脂肪酸酰胺水解酶抑制剂,其体内活性有所提高。
A second generation of carbamate-based fatty acid amide hydrolase inhibitors with improved activity in vivo.
作者信息
Clapper Jason R, Vacondio Federica, King Alvin R, Duranti Andrea, Tontini Andrea, Silva Claudia, Sanchini Silvano, Tarzia Giorgio, Mor Marco, Piomelli Daniele
机构信息
Departments of Pharmacology and Biological Chemistry, 360 MSRII, University of California, Irvine, Irvine, CA 92697, USA.
出版信息
ChemMedChem. 2009 Sep;4(9):1505-13. doi: 10.1002/cmdc.200900210.
Abstract
The fatty acid ethanolamides are a class of signaling lipids that include agonists at cannabinoid and alpha type peroxisome proliferator-activated receptors (PPARalpha). In the brain, these compounds are primarily hydrolyzed by the intracellular serine enzyme fatty acid amide hydrolase (FAAH). O-aryl carbamate FAAH inhibitors such as URB597 are being evaluated clinically for the treatment of pain and anxiety, but interactions with carboxylesterases in liver might limit their usefulness. Here we explore two strategies aimed at overcoming this limitation. Lipophilic N-terminal substitutions, which enhance FAAH recognition, yield potent inhibitors but render such compounds susceptible to attack by broad-spectrum hydrolases and inactive in vivo. By contrast, polar electron-donating O-aryl substituents, which decrease carbamate reactivity, yield compounds, such as URB694, that are highly potent FAAH inhibitors in vivo and less reactive with off-target carboxylesterases. The results suggest that an approach balancing inhibitor reactivity with target recognition produces FAAH inhibitors that display significantly improved drug-likeness.
摘要
脂肪酸乙醇酰胺是一类信号脂质,包括大麻素和α型过氧化物酶体增殖物激活受体(PPARα)的激动剂。在大脑中,这些化合物主要由细胞内丝氨酸酶脂肪酸酰胺水解酶(FAAH)水解。O-芳基氨基甲酸酯类FAAH抑制剂,如URB597,正在进行临床评估以治疗疼痛和焦虑,但与肝脏中的羧酸酯酶相互作用可能会限制其效用。在此,我们探索了两种旨在克服这一限制的策略。增强FAAH识别的亲脂性N端取代产生了强效抑制剂,但使这些化合物易受广谱水解酶攻击且在体内无活性。相比之下,降低氨基甲酸酯反应性的极性给电子O-芳基取代基产生了如URB694这样的化合物,它们在体内是高效的FAAH抑制剂,且与脱靶羧酸酯酶的反应性较低。结果表明,一种平衡抑制剂反应性与靶点识别的方法产生了具有显著改善的类药性质的FAAH抑制剂。
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