乙酰-11-酮基-β-乳香酸(AKBA):结合及5-脂氧合酶抑制活性的结构要求
Acetyl-11-keto-beta-boswellic acid (AKBA): structure requirements for binding and 5-lipoxygenase inhibitory activity.
作者信息
Sailer E R, Subramanian L R, Rall B, Hoernlein R F, Ammon H P, Safayhi H
机构信息
Department of Pharmacology, Institute of Pharmaceutical Sciences, University of Tuebingen, Germany.
出版信息
Br J Pharmacol. 1996 Feb;117(4):615-8. doi: 10.1111/j.1476-5381.1996.tb15235.x.
Abstract
- 5-Lipoxygenase (5-LOX) products from endogenous arachidonic acid in ionophore-stimulated peritoneal polymorphonuclear leukocytes (PMNL) and from exogenous substrate (20 microM) in 105,000 g supernatants were measured. 2. The effects of natural pentacyclic triterpenes and their derivatives on 5-LOX activity were compared with the inhibitory action of acetyl-11-keto-beta-boswellic acid (AKBA), which has been previously shown to inhibit the 5-LOX by a selective, enzyme-directed, non-redox and non-competitive mechanism. 3. The 5-LOX inhibitory potency of AKBA was only slightly diminished by deacetylation of the acetoxy group or reduction of the carboxyl function to alcohol in intact cells (IC50 = 1.5 vs. 3 and 4.5 microM, respectively) and in the cell-free system (8 vs. 20 and 45 microM). 4. beta-Boswellic acid (beta-BA), lacking the 11-keto function, inhibited 5-LOX only partially and incompletely, whereas the corresponding alcohol from beta-BA, as well as amyrin, acetyl-11-keto-amyrin, 11-keto-beta-boswellic acid methyl ester had no 5-LOX inhibitory activity up to 50 microM in either system. 5. beta-BA only partially prevented the AKBA-induced 5-LOX inhibition, whereas the non-inhibitory compounds, amyrin and acetyl-11-keto-amyrin, almost totally antagonized the AKBA effect and shifted the concentration-inhibition curve for the incomplete inhibitor beta-BA to the right. In contrast, the non-inhibitory 11-keto-beta-BA methyl ester exerted no antagonizing effect. 6. The results demonstrate that the pentacyclic triterpene ring system is crucial for binding to the highly selective effector site, whereas functional groups (especially the 11-keto function in addition to a hydrophilic group on C4 of ring A) are essential for 5-LOX inhibitory activity.
摘要
测定了离子载体刺激的腹膜多形核白细胞(PMNL)中内源性花生四烯酸产生的5-脂氧合酶(5-LOX)产物,以及105,000g上清液中外源底物(20μM)产生的5-LOX产物。
将天然五环三萜及其衍生物对5-LOX活性的影响与乙酰-11-酮-β-乳香酸(AKBA)的抑制作用进行了比较,先前已证明AKBA通过选择性、酶导向、非氧化还原和非竞争性机制抑制5-LOX。
在完整细胞(IC50分别为1.5与3和4.5μM)和无细胞系统(8与20和45μM)中,AKBA的5-LOX抑制效力仅因乙酰氧基的脱乙酰化或羧基功能还原为醇而略有降低。
缺乏11-酮功能的β-乳香酸(β-BA)仅部分且不完全抑制5-LOX,而β-BA相应的醇以及香树素、乙酰-11-酮-香树素、11-酮-β-乳香酸甲酯在任一系统中高达50μM时均无5-LOX抑制活性。
β-BA仅部分阻止了AKBA诱导的5-LOX抑制,而非抑制性化合物香树素和乙酰-11-酮-香树素几乎完全拮抗了AKBA的作用,并将不完全抑制剂β-BA的浓度-抑制曲线向右移动。相比之下,非抑制性的11-酮-β-BA甲酯没有拮抗作用。
结果表明,五环三萜环系统对于与高度选择性效应位点的结合至关重要,而官能团(特别是除A环C4上的亲水基团外的11-酮功能)对于5-LOX抑制活性至关重要。
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