芳叉基酮和噻唑烷肼对克氏锥虫和利什曼原虫属的多重抗寄生虫活性

Multi-Anti-Parasitic Activity of Arylidene Ketones and Thiazolidene Hydrazines against Trypanosoma cruzi and Leishmania spp.

作者信息

Álvarez Guzmán, Perdomo Cintya, Coronel Cathia, Aguilera Elena, Varela Javier, Aparicio Gonzalo, Zolessi Flavio R, Cabrera Nallely, Vega Celeste, Rolón Miriam, Rojas de Arias Antonieta, Pérez-Montfort Ruy, Cerecetto Hugo, González Mercedes

机构信息

Laboratorio de Moléculas Bioactivas, CENUR Litoral Norte, Universidad de la República, Ruta 3 (km 363), Paysandú, C.P. 60000, Uruguay.

Centro Para el Desarrollo de la Investigación Científica (CEDIC/FMB/Diaz Gill Medicina Laboratorial), Asunción, C.P. 1255, Paraguay.

出版信息

Molecules. 2017 May 7;22(5):709. doi: 10.3390/molecules22050709.

DOI:10.3390/molecules22050709

PMID:28481276

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6154605/

Abstract

A series of fifty arylideneketones and thiazolidenehydrazines was evaluated against and . Furthermore, new simplified thiazolidenehydrazine derivatives were evaluated against . The cytotoxicity of the active compounds on non-infected fibroblasts or macrophages was established in vitro to evaluate the selectivity of their anti-parasitic effects. Seven thiazolidenehydrazine derivatives and ten arylideneketones had good activity against the three parasites. The IC values for and spp. ranged from 90 nM-25 µM. Eight compounds had multi-trypanocidal activity against and spp. (the etiological agents of cutaneous and visceral forms). The selectivity of these active compounds was better than the three reference drugs: benznidazole, glucantime and miltefosine. They also had low toxicity when tested in vivo on zebrafish. Trying to understand the mechanism of action of these compounds, two possible molecular targets were investigated: triosephosphate isomerase and cruzipain. We also used a molecular stripping approach to elucidate the minimal structural requirements for their anti- activity.

摘要

对一系列五十种亚芳基酮和噻唑烷肼进行了针对[具体寄生虫1]和[具体寄生虫2]的评估。此外，还对新的简化噻唑烷肼衍生物进行了针对[具体寄生虫3]的评估。在体外确定了活性化合物对未感染的成纤维细胞或巨噬细胞的细胞毒性，以评估其抗寄生虫作用的选择性。七种噻唑烷肼衍生物和十种亚芳基酮对这三种寄生虫具有良好活性。对[具体寄生虫1]和[具体寄生虫2]的IC值范围为90 nM至25 µM。八种化合物对[具体寄生虫4]和[具体寄生虫5]（皮肤和内脏型的病原体）具有多重杀锥虫活性。这些活性化合物的选择性优于三种参考药物：苯硝唑、葡甲胺和米替福新。它们在斑马鱼体内进行测试时也具有低毒性。为了试图了解这些化合物的作用机制，研究了两个可能的分子靶点：磷酸丙糖异构酶和克氏锥虫蛋白酶。我们还采用了分子剥离方法来阐明其抗[具体寄生虫]活性的最小结构要求。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2712/6154605/b2e6e1c7aaf6/molecules-22-00709-g001.jpg

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芳叉基酮和噻唑烷肼对克氏锥虫和利什曼原虫属的多重抗寄生虫活性

Multi-Anti-Parasitic Activity of Arylidene Ketones and Thiazolidene Hydrazines against Trypanosoma cruzi and Leishmania spp.

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