Martin Richard J, Clark Cheryl L, Trailovic Sasa M, Robertson Alan P
Department of Biomedical Sciences, College of Veterinary Medicine, Iowa State University, Ames, IA 50010, USA.
Int J Parasitol. 2004 Aug;34(9):1083-90. doi: 10.1016/j.ijpara.2004.04.014.
Three pharmacological subtypes of cholinergic receptors have been distinguished in Ascaris suum using a muscle contraction assay and classical pharmacological techniques. The receptor subtypes are: a B-subtype (sensitive to bephenium); an L-subtype (sensitive to levamisole and pyrantel); and an N-subtype (sensitive to nicotine and methyridine). Oxantel is a cholinergic anthelmintic that was first introduced for the treatment of whipworm, Trichuris, infections in children. Here, we compare the subtype selectivity of oxantel with thenium and other cholinergic anthelmintics. We used the A. suum assay to derive pA(2) values for the agonists: oxantel, thenium, bephenium, levamisole, pyrantel, nicotine and methyridine with the antagonists: paraherquamide, 2-desoxyparaherquamide and methyllycaconitine. pA(2) values, rather than pK(B) values, were determined for all agonists when it was found that Schild slopes for some agonists were significantly less than 1.0. The pA(2) of oxantel was 6.58+/-0.25 for paraherquamide; 5.39+/-0.28 for 2-desoxyparaherquamide; 7.01+/-0.19 for methyllycaconitine. Comparison of pA(2) values using cluster analysis showed that oxantel was grouped with nicotine and methyridine, the N-subtype agonists. Thenium had pA(2)s of 7.84+/-0.41 for paraherquamide; 5.52+/-0.50 for 2-desoxyparaherquamide; 6.33+/-0.19 for methyllycaconitine. Cluster analysis placed thenium between the L-subtype agonists and the B-subtype agonist. The therapeutic significance of classification of cholinergic anthelmintics is discussed. Combination of oxantel and pyrantel would have therapeutic advantages, covering N- and L-subtypes, and so increasing spectrum of action and reducing the potential for development of resistance. Our results predict that oxantel may remain effective in some nematode isolates that have become levamisole- and pyrantel-resistant.
利用肌肉收缩试验和经典药理学技术,在猪蛔虫中已区分出三种胆碱能受体的药理学亚型。这些受体亚型为:B亚型(对苄酚宁敏感);L亚型(对左旋咪唑和噻嘧啶敏感);以及N亚型(对尼古丁和美沙立啶敏感)。奥克太尔是一种胆碱能驱虫药,最初用于治疗儿童鞭虫(毛首鞭形线虫)感染。在此,我们比较了奥克太尔与赛尼铵及其他胆碱能驱虫药的亚型选择性。我们使用猪蛔虫试验得出激动剂奥克太尔、赛尼铵、苄酚宁、左旋咪唑、噻嘧啶、尼古丁和美沙立啶以及拮抗剂对氯间苯二酚、2-脱氧对氯间苯二酚和甲基lycaconitine的pA(2)值。当发现某些激动剂的舒尔德斜率显著小于1.0时,我们测定了所有激动剂的pA(2)值而非pK(B)值。奥克太尔对氯间苯二酚的pA(2)为6.58±0.25;对2-脱氧对氯间苯二酚为5.39±0.28;对甲基lycaconitine为7.01±0.19。使用聚类分析比较pA(2)值表明,奥克太尔与N亚型激动剂尼古丁和美沙立啶归为一组。赛尼铵对氯间苯二酚的pA(2)为7.84±0.41;对2-脱氧对氯间苯二酚为5.52±0.50;对甲基lycaconitine为6.33±0.19。聚类分析将赛尼铵置于L亚型激动剂和B亚型激动剂之间。本文讨论了胆碱能驱虫药分类的治疗意义。奥克太尔和噻嘧啶联合使用具有治疗优势,可覆盖N和L亚型,从而扩大作用谱并降低耐药性产生的可能性。我们的结果预测,奥克太尔可能对某些已对左旋咪唑和噻嘧啶产生耐药性的线虫分离株仍有效。
