{"title":"The Plagiochilins from Plagiochila Liverworts: Binding to α-Tubulin and Drug Design Perspectives","authors":"G. Vergoten, C. Bailly","doi":"10.3390/appliedchem3020014","DOIUrl":null,"url":null,"abstract":"Among bryophytes, the Plagiochila genus represents a large group of leafy liverworts with over 500 species. Plagiochilins A to X are sesquiterpenoids isolated from Plagiochila species. The lead compound plagiochilin A (Plg-A), endowed with anticancer and antiparasitic properties, has been characterized as a potent mitosis inhibitor, acting selectively at the late stage of cytokinesis termed abscission. The compound perturbs the dynamics of microtubules, blocking cell cycle progression and triggering the death of malignant cells. Based on the compound’s mechanism of action and by analogy with other natural products bearing a dihydro-pyrone moiety, we postulated that Plg-A could bind to the pironetin site of α-tubulin. A molecular docking analysis was performed to compare the bindings of all 24 plagiochilins to α-tubulin and to establish structure–binding relationships. The identification of Plg-E and Plg-G as the best binders in the series highlighted the importance of the C13-OH or C=O group for α-tubulin recognition. This observation led to the testing of the natural-product ester plagiochilin A-15-yl n-octanoate and the corresponding alcohol (Plg-OH), both identified as robust α-tubulin binders. The study provides a rationale to potentially explain the mechanism of action of Plg-A and to guide the design of new derivatives.","PeriodicalId":8123,"journal":{"name":"AppliedChem","volume":"48 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2023-05-09","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"AppliedChem","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.3390/appliedchem3020014","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
Among bryophytes, the Plagiochila genus represents a large group of leafy liverworts with over 500 species. Plagiochilins A to X are sesquiterpenoids isolated from Plagiochila species. The lead compound plagiochilin A (Plg-A), endowed with anticancer and antiparasitic properties, has been characterized as a potent mitosis inhibitor, acting selectively at the late stage of cytokinesis termed abscission. The compound perturbs the dynamics of microtubules, blocking cell cycle progression and triggering the death of malignant cells. Based on the compound’s mechanism of action and by analogy with other natural products bearing a dihydro-pyrone moiety, we postulated that Plg-A could bind to the pironetin site of α-tubulin. A molecular docking analysis was performed to compare the bindings of all 24 plagiochilins to α-tubulin and to establish structure–binding relationships. The identification of Plg-E and Plg-G as the best binders in the series highlighted the importance of the C13-OH or C=O group for α-tubulin recognition. This observation led to the testing of the natural-product ester plagiochilin A-15-yl n-octanoate and the corresponding alcohol (Plg-OH), both identified as robust α-tubulin binders. The study provides a rationale to potentially explain the mechanism of action of Plg-A and to guide the design of new derivatives.
在苔藓植物中,Plagiochila属代表了一个大的叶苔属,有500多种。Plagiochilins A ~ X是从Plagiochila属植物中分离得到的倍半萜类化合物。前导化合物plagiochilin A (Plg-A)具有抗癌和抗寄生虫的特性,被认为是一种有效的有丝分裂抑制剂,选择性地作用于细胞分裂的后期,即脱落。该化合物扰乱微管动力学,阻断细胞周期进程,引发恶性细胞死亡。根据该化合物的作用机制,并与其他含有二氢吡咯酮片段的天然产物进行类比,我们假设Plg-A可以结合α-微管蛋白的皮罗蛋白位点。通过分子对接分析,比较了所有24种斜青椒苷与α-微管蛋白的结合,并建立了结构结合关系。Plg-E和plg是该系列中最佳的结合物,这突出了C13-OH或C=O基团对α-微管蛋白识别的重要性。这一观察结果导致了对天然产物油葵苷a -15-酰基辛酸酯和相应的醇(Plg-OH)的测试,两者都被确定为强大的α-微管蛋白粘合剂。该研究为潜在地解释Plg-A的作用机制和指导新衍生物的设计提供了理论基础。