In vitro and in silico studies of GST-inhibitory and larvicidal activities of alkaloids against Rhipicephalus microplus

IF 2.2 2区农林科学 Q2 PARASITOLOGY

Veterinary parasitology Pub Date : 2025-10-06 DOI:10.1016/j.vetpar.2025.110628

Amanda Ponce Morais Cerqueira , Matheus da Cunha Santos , Gabriel Lima Soares Rezende , Manoelito Coelho dos Santos Junior , Mariana Borges Botura

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引用次数: 0

Abstract

The resistance of Rhipicephalus microplus to the main commercial acaricides has stimulated research for new antiparasitic agents, including natural products as an alternative to eco-friendly control. Among the main classes of secondary metabolites of plants stand out the alkaloids, which are characterized by a variety of biological activities such as enzymatic inhibition. The enzyme Glutathione-S-transferase (GST) is an important catalyst of xenobiotic detox reactions in arthropods and represents a promising target in the acaricide development. This work aimed to associate in silico and in vitro assays for the identification of alkaloids with inhibitory action against GST from R. microplus (RmGST). The model of RmGST was designed using the SWISS-MODEL online server and validated by molecular dynamics. The molecular affinity of alkaloids with RmGST was assessed using the DOCK 6.9 program and the best molecules were employed in in vitro assays. The in vitro assays performed were enzymatic inhibition and larval immersion tests. Molecular dynamics was run with GROMACS for alkaloid selected from in silico and in vitro analyses. The RmGST model shown to be sterically and energetically acceptable. In molecular dynamics simulations, the 3D structure remains stable with Root Mean Square Deviation = 4.35 Å and Root Mean Square Fluctuation = 2.21 Å. All the 20 alkaloids tested in molecular docking analyses show molecular affinity to the RmGST. Colchicine and papaverine show the best GridScocre: −38.09 and −36.09 kcal/mol, respectively. In in vitro enzymatic evaluation, colchicine exhibited more activity (81.73 %, 0.5 mg/mL) in comparison to papaverine (27.8 %, 0.5 mg/mL). However, these alkaloids did not interfere in vitro with the viability of R. microplus larvae. The colchicine contributed to the stability of the RmGST model in molecular dynamics simulations and presented hydrophobic and hydrogen interactions with residues from the orthosteric site. The association of in silico and in vitro techniques allowed the identification of two potential RmGST inhibitors (colchinine and papaverine) capable of interacting in the active site of the enzyme. RmGST inhibitors can be used in association with acaricides for a more effective control of R. microplus reducing parasite resistance.

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生物碱对微头虱gst抑制和杀幼虫活性的体外和室内研究。

微加鼻头虫对主要的商业杀螨剂的抗性刺激了对新型抗寄生虫剂的研究，包括天然产品作为生态友好控制的替代方案。在植物次生代谢产物的主要类别中，生物碱具有多种生物活性，如酶抑制作用。谷胱甘肽- s -转移酶（GST）是节肢动物外源排毒反应的重要催化剂，在杀螨剂的开发中具有广阔的应用前景。本研究旨在通过体外和硅质联用方法鉴定具有抑制GST作用的生物碱。利用SWISS-MODEL在线服务器设计RmGST模型，并进行分子动力学验证。使用DOCK 6.9程序评估生物碱与RmGST的分子亲和性，并采用最佳分子进行体外实验。体外实验进行酶抑制和幼虫浸泡试验。用GROMACS对从硅和体外分析中选择的生物碱进行分子动力学分析。RmGST模型在空间和能量上是可以接受的。在分子动力学模拟中，三维结构保持稳定，均方根偏差= 4.35 Å，均方根波动= 2.21 Å。所有20种生物碱在分子对接分析中都显示出与RmGST的分子亲和性。秋水仙碱和罂粟碱的gridscore最高，分别为-38.09和-36.09 kcal/mol。在体外酶评价中，秋水仙碱的酶活性（81.73 %,0.5 mg/mL）高于罂粟碱（27.8 %,0.5 mg/mL）。然而，这些生物碱在体外不影响小夜蛾幼虫的生存能力。秋水仙碱有助于RmGST模型在分子动力学模拟中的稳定性，并与正构位残基表现出疏水和氢相互作用。硅和体外技术的结合允许鉴定两种潜在的RmGST抑制剂（秋碱和罂粟碱）能够在酶的活性位点相互作用。RmGST抑制剂可与杀螨剂联合使用，以更有效地控制微夜蛾，降低寄生虫抗性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Veterinary parasitology 农林科学-寄生虫学

CiteScore

5.30

自引率

7.70%

发文量

126

审稿时长

36 days

期刊介绍： The journal Veterinary Parasitology has an open access mirror journal,Veterinary Parasitology: X, sharing the same aims and scope, editorial team, submission system and rigorous peer review. This journal is concerned with those aspects of helminthology, protozoology and entomology which are of interest to animal health investigators, veterinary practitioners and others with a special interest in parasitology. Papers of the highest quality dealing with all aspects of disease prevention, pathology, treatment, epidemiology, and control of parasites in all domesticated animals, fall within the scope of the journal. Papers of geographically limited (local) interest which are not of interest to an international audience will not be accepted. Authors who submit papers based on local data will need to indicate why their paper is relevant to a broader readership. Parasitological studies on laboratory animals fall within the scope of the journal only if they provide a reasonably close model of a disease of domestic animals. Additionally the journal will consider papers relating to wildlife species where they may act as disease reservoirs to domestic animals, or as a zoonotic reservoir. Case studies considered to be unique or of specific interest to the journal, will also be considered on occasions at the Editors'' discretion. Papers dealing exclusively with the taxonomy of parasites do not fall within the scope of the journal.