Synthesis and antileishmanial activity of naphthoquinone-based hybrids

Revista Colombiana de Ciencias Químico-Farmacéuticas Pub Date : 2021-08-24 DOI:10.15446/rcciquifa.v50n2.92861

C. R. M. Araújo, Délis Galvão Guimarães, Sidney Silva Simplício, Valéria Carlos de Sousa, Klinger Antonio da Franca Rodrigues, Fernando Aércio A. Carvalho, Sabrina M. P. Carneiro, Marcília Pinheiro da Costa, Arlan De A. Gonsalves

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Abstract

Introduction: leishmaniasis is a disease caused by protozoa of the genus Leishmania and is considered endemic in 98 countries. Treatment with pentavalent antimonials has a high toxicity, which motivates the search for effective and less toxic drugs. α- and β-lapachones have shown different biological activities, including antiprotozoa. In recent studies, the isonicotinoylhydrazone and phthalazinylhydrazone groups were considered innovative in the development of antileishmania drugs. Molecular hybridization is a strategy for the rational development of new prototypes, where the main compound is produced through the appropriate binding of pharmacophoric subunits. Aims: to synthesize four hybrids of α- and β-lapachones, together with the isonicotinoylhydrazone and phthalazinylhydrazone groups and to determine the antileishmania activity against the promastigotic forms of L. amazonensis, L. infantum and L. major. Results: β-lapachone derivatives were more active against all tested leishmania species. ΒACIL (IC50 0.044µM) and βHDZ (IC50 0.023µM) showed 15-fold higher activity than amphotericin B. The high selectivity index exhibited by the compounds indicates greater safety for vertebrate host cells. Conclusion: the results of this work show that the hybrids βACIL and βHDZ are promising molecules for the development of new antileishmania drugs.

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萘醌类杂合物的合成及抗利什曼原虫活性研究

简介:利什曼病是一种由利什曼原虫属原虫引起的疾病，被认为在98个国家流行。用五价锑治疗具有高毒性，这促使人们寻找有效和毒性较低的药物。α-和β-lapachones显示出不同的生物活性，包括抗原虫。在最近的研究中，异烟碱酰腙和酞嗪酰腙基团被认为是抗利什曼原虫药物开发中的创新基团。分子杂交是一种合理开发新原型的策略，主要化合物是通过适当结合药效亚基产生的。目的:合成α-和β-拉帕康酮及其异烟碱酰腙和酞嗪酰腙基团的4个杂种，测定其对亚马孙乳杆菌、婴儿乳杆菌和大乳杆菌原乳突菌的抗利什曼原虫活性。结果:β-lapachone衍生物对所有利什曼原虫均有较强的抑制作用。ΒACIL (IC50 0.044µM)和βHDZ (IC50 0.023µM)的活性比两性霉素b高15倍，具有较高的选择性指数，对脊椎动物宿主细胞具有较高的安全性。结论:本研究结果表明，βACIL和βHDZ的杂种分子具有开发抗利什曼原虫药物的潜力。

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Revista Colombiana de Ciencias Químico-Farmacéuticas

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