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分析合成 N-酰基多巴胺衍生物,揭示其抗炎和瞬时受体电位通道香草素受体亚家族亚型 1(TRPV1)激活特性的不同结构要求。

Analyses of Synthetic N-Acyl Dopamine Derivatives Revealing Different Structural Requirements for Their Anti-inflammatory and Transient-Receptor-Potential-Channel-of-the-Vanilloid-Receptor-Subfamily-Subtype-1 (TRPV1)-Activating Properties.

机构信息

Institute for Molecular and Cellular Biology , Mannheim University of Applied Sciences , Mannheim 68163 , Germany.

Center for Bioinformatics and Molecular Simulations, Faculty of Engineering in Bioinformatics , Universidad de Talca , Talca 3460000 , Chile.

出版信息

J Med Chem. 2018 Apr 12;61(7):3126-3137. doi: 10.1021/acs.jmedchem.8b00156. Epub 2018 Apr 2.

DOI:10.1021/acs.jmedchem.8b00156
PMID:29543451
Abstract

We studied the chemical entities within N-octanoyl dopamine (NOD) responsible for the activation of transient-receptor-potential channels of the vanilloid-receptor subtype 1 (TRPV1) and inhibition of inflammation. The potency of NOD in activating TRPV1 was significantly higher compared with those of variants in which the ortho-dihydroxy groups were acetylated, one of the hydroxy groups was omitted ( N-octanoyl tyramine), or the ester functionality consisted of a bulky fatty acid ( N-pivaloyl dopamine). Shortening of the amide linker (ΔNOD) slightly increased its potency, which was further increased when the carbonyl and amide groups (ΔNODR) were interchanged. With the exception of ΔNOD, the presence of an intact catechol structure was obligatory for the inhibition of VCAM-1 and the induction of HO-1 expression. Because TRPV1 activation and the inhibition of inflammation by N-acyl dopamines require different structural entities, our findings provide a framework for the rational design of TRPV1 agonists with improved anti-inflammatory properties.

摘要

我们研究了 N-辛酰基多巴胺(NOD)中负责激活香草素受体亚型 1(TRPV1)瞬时受体电位通道和抑制炎症的化学实体。与那些邻二羟基乙酰化、一个羟基缺失(N-辛酰基酪胺)或酯官能团由大体积脂肪酸组成(N-特戊酰基多巴胺)的变体相比,NOD 激活 TRPV1 的效力明显更高。酰胺键缩短(ΔNOD)略微增加了其效力,当羰基和酰胺基团(ΔNODR)互换时,其效力进一步增加。除了 ΔNOD 之外,完整儿茶酚结构的存在对于抑制 VCAM-1 和诱导 HO-1 表达是必需的。由于 N-酰基多巴胺对 TRPV1 的激活和炎症的抑制需要不同的结构实体,我们的发现为具有改善抗炎特性的 TRPV1 激动剂的合理设计提供了框架。

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