Effect of a thiohydantoin salt derived from l-Arginine on Leishmania amazonensis and infected cells: Insights from biological effects to molecular docking interactions

IF 4.7 2区 医学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Chemico-Biological Interactions Pub Date : 2024-08-31 DOI:10.1016/j.cbi.2024.111216
Bruna Taciane da Silva Bortoleti , Priscila Goes Camargo , Manoela Daiele Gonçalves , Fernanda Tomiotto-Pellissier , Taylon Felipe Silva , Virginia Marcia Concato , Mariana Barbosa Detoni , Danielle Larazin Bidóia , Camilo Henrique da Silva Lima , Carlos Rangel Rodrigues , Marcelle de Lima Ferreira Bispo , Fernando Cesar de Macedo Jr. , Ivete Conchon-Costa , Milena Menegazzo Miranda-Sapla , Pryscilla Fanini Wowk , Wander Rogério Pavanelli
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Abstract

Leishmaniasis is a neglected tropical disease caused by parasites of the genus Leishmania and is responsible for more than 1 million new cases and 70,000 deaths annually worldwide. Treatment has high costs, toxicity, complex and long administration time, several adverse effects, and drug-resistant strains, therefore new therapies are urgently needed. Synthetic compounds have been highlighted in the medicinal chemistry field as a strong option for drug development against different diseases. Organic salts (OS) have multiple biological activities, including activity against protozoa such as Leishmania spp. This study aimed to investigate the in vitro leishmanicidal activity and death mechanisms of a thiohydantoin salt derived from l-arginine (ThS) against Leishmania amazonensis. We observed that ThS treatment inhibited promastigote proliferation, increased ROS production, phosphatidylserine exposure and plasma membrane permeabilization, loss of mitochondrial membrane potential, lipid body accumulation, autophagic vacuole formation, cell cycle alteration, and morphological and ultrastructural changes, showing parasites death. Additionally, ThS presents low cytotoxicity in murine macrophages (J774A.1), human monocytes (THP-1), and sheep erythrocytes. ThS in vitro cell treatment reduced the percentage of infected macrophages and the number of amastigotes per macrophage by increasing ROS production and reducing TNF-α levels. These results highlight the potential of ThS among thiohydantoins, mainly related to the arginine portion, as a leishmanicidal drug for future drug strategies for leishmaniasis treatment. Notably, in silico investigation of key targets from L. amazonensis, revealed that a ThS compound from the l-arginine amino acid strongly interacts with arginase (ARG) and TNF-α converting enzyme (TACE), suggesting its potential as a Leishmania inhibitor.

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由 L-精氨酸衍生的硫代海因盐对亚马逊利什曼原虫和受感染细胞的影响:从生物效应到分子对接相互作用的启示。
利什曼病是由利什曼属寄生虫引起的一种被忽视的热带疾病,每年在全球造成 100 多万新发病例和 7 万多人死亡。利什曼病治疗成本高、毒性大、用药复杂且时间长、不良反应多、耐药菌株多,因此迫切需要新的疗法。药物化学领域一直强调合成化合物是开发治疗不同疾病药物的有力选择。有机盐(OS)具有多种生物活性,包括对利什曼原虫(Leishmania spp.)的活性。我们观察到,ThS 处理可抑制原原体增殖、增加 ROS 生成、磷脂酰丝氨酸暴露和质膜通透、线粒体膜电位丧失、脂质体积累、自噬空泡形成、细胞周期改变以及形态学和超微结构变化,从而显示寄生虫死亡。此外,ThS 对小鼠巨噬细胞(J774A.1)、人类单核细胞(THP-1)和绵羊红细胞的细胞毒性较低。体外细胞处理 ThS 可通过增加 ROS 生成和降低 TNF-α 水平来减少受感染巨噬细胞的百分比和每个巨噬细胞中的非主母细胞数量。这些结果凸显了硫代海因(主要与精氨酸部分有关)中的ThS作为一种利什曼杀灭药物的潜力,可用于未来利什曼病治疗的药物策略。值得注意的是,对亚马逊利什曼原虫关键靶标的硅学研究发现,一种来自 L-精氨酸氨基酸的 ThS 化合物与精氨酸酶(ARG)和 TNF-α 转换酶(TACE)有很强的相互作用,这表明它具有作为利什曼原虫抑制剂的潜力。
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来源期刊
CiteScore
7.70
自引率
3.90%
发文量
410
审稿时长
36 days
期刊介绍: Chemico-Biological Interactions publishes research reports and review articles that examine the molecular, cellular, and/or biochemical basis of toxicologically relevant outcomes. Special emphasis is placed on toxicological mechanisms associated with interactions between chemicals and biological systems. Outcomes may include all traditional endpoints caused by synthetic or naturally occurring chemicals, both in vivo and in vitro. Endpoints of interest include, but are not limited to carcinogenesis, mutagenesis, respiratory toxicology, neurotoxicology, reproductive and developmental toxicology, and immunotoxicology.
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