Bensalem Sihem, Soubhye Jalal, Aldib Iyas, Bournine Lamine, Nguyen Anh Tho, Vanhaeverbeek Michel, Rousseau Alexandre, Boudjeltia Karim Zouaoui, Sarakbi Ahmad, Kauffmann Jean Michel, Nève Jean, Prévost Martine, Stévigny Caroline, Maiza-Benabdesselam Fadila, Bedjou Fatiha, Van Antwerpen Pierre, Duez Pierre
Laboratoire Biotechnologie Végétales et Ethnobotanique, Faculté des Sciences de la Nature et de la Vie, Université Abderrahmane Mira de Bejaia, 06000 Bejaia, Algérie; Laboratoire de Pharmacognosie, Bromatologie et Nutrition Humaine, Université Libre de Bruxelles (ULB), 1050 Bruxelles, Belgique.
Laboratoire de Chimie Pharmaceutique Organique, Faculté de Pharmacie, Université Libre de Bruxelles (ULB), 1050 Bruxelles, Belgique.
J Ethnopharmacol. 2014 Jun 11;154(2):361-9. doi: 10.1016/j.jep.2014.03.070. Epub 2014 Apr 16.
Seeds and aerial parts of Peganum harmala L. are widely used in Algeria as anti-inflammatory remedies. Evaluation of Peganum harmala total alkaloids extracts and pure β-carboline compounds as an anti-inflammatory treatment by the inhibition of an enzyme key of inflammatory, myeloperoxidase (MPO) and HPLC quantification of the alkaloids from the different parts of plant.
MPO inhibition was tested using taurine chloramine test. The inhibition of LDL oxidation induced by MPO was carried out. The molecular docking analysis of Peganum harmala alkaloids on MPO was performed using the Glide XP docking protocol and scoring function and the redox potential of alkaloids was determined using an Epsilon potentiostat. The concentration of harmala alkaloids was determined using HPLC analysis.
The HPLC profiling of the active total alkaloids indicates that β-carboline e.g. harmine, harmaline, harmane, harmol and harmalol are major components. As β-carbolines resemble tryptamine, of which derivatives are efficient inhibitors of MPO, the harmala alkaloids were tested for their activity on this enzyme. Total alkaloids of the seeds and of the aerial parts strongly inhibited MPO at 20µg/mL (97±5% and 43±4%, respectively) whereas, at the same concentration, those of the roots showed very low inhibition (15±6%). Harmine, harmaline and harmane demonstrated a significant inhibition of MPO at IC50 of 0.26, 0.08 and 0.72µM respectively. These alkaloids exerted a similar inhibition effects on MPO-induced LDL oxidation. Molecular docking analysis of Peganum harmala alkaloids on MPO showed that all active Peganum harmala alkaloids have a high affinity on the active site of MPO (predicted free energies of binding up to -3.1kcal/mol). Measurement of redox potentials versus the normal hydrogen electrode clearly differentiated (i) the high MPO inhibitory activity of harmine, harmaline and harmane (+1014, 1014 and 1003mV, respectively); and (ii) the low activity of harmalol and harmol (+629/778 and 532/644mV, respectively). A reverse phase HPLC method has been developed to determine simultaneously five alkaloids of Peganum harmala. Seeds contained all five β-carboline derivatives with the main active alkaloids, harmaline and harmine, being up to 3.8% and 2.9%, respectively. Up to 3.2% of harmine was determined in the roots. The four β-carboline derivatives, harmine, harmaline, harmane and harmalol were identified in the aerial parts. The highest inhibitory effect observed in seeds and the moderate effect of aerial parts could be explained by their harmine and harmaline content. In contrast, the very weak inhibition of the root extract, despite the presence of harmine, may tentatively be explained by the high concentration of harmol which can reduce Compound II of MPO to the native form.
The inhibition of MPO by Peganum harmala β-carboline alkaloids, herein reported for the first time, may explain the anti-inflammatory effect traditionally attributed to its herbal medicine.
骆驼蓬的种子和地上部分在阿尔及利亚被广泛用作抗炎药物。通过抑制炎症关键酶髓过氧化物酶(MPO)来评估骆驼蓬总生物碱提取物和纯β-咔啉化合物作为抗炎治疗的效果,并采用高效液相色谱法对植物不同部位的生物碱进行定量分析。
使用牛磺酸氯胺试验检测MPO抑制作用。进行MPO诱导的低密度脂蛋白氧化抑制实验。采用Glide XP对接协议和评分函数对骆驼蓬生物碱与MPO进行分子对接分析,并使用Epsilon电位滴定仪测定生物碱的氧化还原电位。通过高效液相色谱分析确定骆驼蓬生物碱的浓度。
活性总生物碱的高效液相色谱分析表明,β-咔啉如去氢骆驼蓬碱、骆驼蓬灵、哈尔满、去氢骆驼蓬酚和骆驼蓬醇是主要成分。由于β-咔啉类似于色胺,其衍生物是MPO的有效抑制剂,因此测试了骆驼蓬生物碱对该酶的活性。种子和地上部分的总生物碱在20μg/mL时对MPO有强烈抑制作用(分别为97±5%和43±4%),而在相同浓度下,根部的总生物碱抑制作用非常低(15±6%)。去氢骆驼蓬碱、骆驼蓬灵和哈尔满在IC50分别为0.26、0.08和0.72μM时对MPO有显著抑制作用。这些生物碱对MPO诱导的低密度脂蛋白氧化具有类似的抑制作用。骆驼蓬生物碱与MPO的分子对接分析表明,所有活性骆驼蓬生物碱对MPO的活性位点具有高亲和力(预测结合自由能高达-3.1kcal/mol)。相对于标准氢电极的氧化还原电位测量清楚地区分了:(i)去氢骆驼蓬碱、骆驼蓬灵和哈尔满的高MPO抑制活性(分别为+1014、1014和1003mV);以及(ii)骆驼蓬醇和去氢骆驼蓬酚的低活性(分别为+629/778和532/644mV)。已开发出一种反相高效液相色谱法同时测定骆驼蓬的五种生物碱。种子中含有所有五种β-咔啉衍生物,主要活性生物碱骆驼蓬灵和去氢骆驼蓬碱的含量分别高达3.8%和2.9%。根部中去氢骆驼蓬碱的含量高达3.2%。地上部分鉴定出四种β-咔啉衍生物,即去氢骆驼蓬碱、骆驼蓬灵、哈尔满和骆驼蓬醇。种子中观察到的最高抑制作用和地上部分的中等抑制作用可以通过它们的去氢骆驼蓬碱和骆驼蓬灵含量来解释。相比之下,尽管根部提取物中存在去氢骆驼蓬碱,但其抑制作用非常弱,这可能初步解释为去氢骆驼蓬酚浓度高,它可以将MPO的化合物II还原为天然形式。
本文首次报道骆驼蓬β-咔啉生物碱对MPO的抑制作用,这可能解释了传统上归因于其草药的抗炎作用。
