从Mesua ferrea Linn.根中分离出的黄酮类化合物的抗疟潜力:体外和硅学分子对接与药代动力学研究。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Atthaphon Konyanee, Prapaporn Chaniad, Arnon Chukaew, Apirak Payaka, Abdi Wira Septama, Arisara Phuwajaroanpong, Walaiporn Plirat, Chuchard Punsawad
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引用次数: 0

摘要

背景:疟疾是全球主要的健康问题,尤其是在热带和亚热带国家。随着青蒿素一线治疗的抗药性不断增加,迫切需要发现新型抗疟药物。Mesua ferrea Linn.是一种用于各种用途的传统医药植物,我们的研究小组曾对其细胞毒性特性进行过研究。本研究的目的是探索从阿魏中分离出来的化合物的潜在抗疟活性、它们与恶性疟原虫乳酸脱氢酶(PfLDH)的相互作用(PfLDH是寄生虫生存的关键酶)以及它们的药代动力学和毒性特征:方法:利用寄生虫乳酸脱氢酶(pLDH)检测法评估了分离出的化合物对恶性疟原虫 K1 多药耐药菌株的体外抗疟活性。采用 MTT(3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide)试验测定了 Vero 细胞的体外细胞毒性。采用分子对接法研究了分离化合物与目标酶 PfLDH 之间的相互作用。此外,还使用在线网络工具 SwissADME 和 ProTox-II 分别估算了药代动力学和毒性特性:在从阿魏根中分离出的 7 种化合物中,属于吡喃氧杂蒽酮类的 rheediachromenoxanthone (5) 在体外表现出良好的抗疟活性,其 IC50 值为 19.93 µM。此外,该化合物对 Vero 细胞无毒性(CC50 = 112.34 µM),选择性指数(SI)为 5.64。分子对接分析表明,化合物 (5) 与 PfLDH 的结合亲和力为 - 8.6 kcal/mol,并通过与 ASP53、TYR85 和 GLU122 等关键氨基酸残基形成氢键而得到稳定。药代动力学预测表明,化合物 (5) 具有良好的类药物特性和理想的药代动力学特征。这些特征包括在胃肠道的高吸收率、被列为渗透性糖蛋白(P-gp)的非底物、不抑制 CYP2C19、易于合成、预测半数致死剂量高达 4,000 毫克/千克,以及重要的非肝毒性、非致癌性和非细胞毒性作用:这项研究表明,从阿魏中分离出的化合物对恶性疟原虫具有活性。Rheediachromenoxanthone作为开发强效抗疟药物的支架具有巨大潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Antiplasmodial potential of isolated xanthones from Mesua ferrea Linn. roots: an in vitro and in silico molecular docking and pharmacokinetics study.

Background: Malaria is a major global health concern, particularly in tropical and subtropical countries. With growing resistance to first-line treatment with artemisinin, there is an urgent need to discover novel antimalarial drugs. Mesua ferrea Linn., a plant used in traditional medicine for various purposes, has previously been investigated by our research group for its cytotoxic properties. The objective of this study was to explore the compounds isolated from M. ferrea with regards to their potential antiplasmodial activity, their interaction with Plasmodium falciparum lactate dehydrogenase (PfLDH), a crucial enzyme for parasite survival, and their pharmacokinetic and toxicity profiles.

Methods: The isolated compounds were assessed for in vitro antiplasmodial activity against a multidrug-resistant strain of P. falciparum K1 using a parasite lactate dehydrogenase (pLDH) assay. In vitro cytotoxicity against Vero cells was determined using the MTT (3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide) assay. The interactions between the isolated compounds and the target enzyme PfLDH were investigated using molecular docking. Additionally, pharmacokinetic and toxicity properties were estimated using online web tools SwissADME and ProTox-II, respectively.

Results: Among the seven compounds isolated from M. ferrea roots, rheediachromenoxanthone (5), which belongs to the pyranoxanthone class, demonstrated good in vitro antiplasmodial activity, with the IC50 being 19.93 µM. Additionally, there was no toxicity towards Vero cells (CC50 = 112.34 µM) and a selectivity index (SI) of 5.64. Molecular docking analysis revealed that compound (5) exhibited a strong binding affinity of - 8.6 kcal/mol towards PfLDH and was stabilized by forming hydrogen bonds with key amino acid residues, including ASP53, TYR85, and GLU122. Pharmacokinetic predictions indicated that compound (5) possessed favorable drug-like properties and desired pharmacokinetic characteristics. These include high absorption in the gastrointestinal tract, classification as a non-substrate of permeability glycoprotein (P-gp), non-inhibition of CYP2C19, ease of synthesis, a high predicted LD50 value of 4,000 mg/kg, and importantly, non-hepatotoxic, non-carcinogenic, and non-cytotoxic effects.

Conclusions: This study demonstrated that compounds isolated from M. ferrea exhibit activity against P. falciparum. Rheediachromenoxanthone has significant potential as a scaffold for the development of potent antimalarial drugs.

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CiteScore
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