Keamogetswe Sechoaro, Janine Aucamp, Christina Kannigadu, Helena D Janse van Rensburg, Keisuke Suganuma, David D N'Da
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引用次数: 0
摘要
被忽视的热带病是一组在非洲、亚洲和美洲发展中国家高度流行的传染病。这些疾病的治疗完全依赖化疗,而化疗具有严重的副作用、毒性和寄生虫抗药性。因此,亟需开发新的有效药物来遏制这些疾病。因此,我们合成了一系列新型异atinylhydantoin 衍生物,并评估了它们对七种人类或动物感染性锥虫和两种人类感染性利什曼原虫的体外抗克寄生虫活性。还测试了合成的衍生物对人类、动物和寄生虫宿主相关细胞系的潜在细胞毒性。含有 5-氯靛红和对溴苄基分子的异靛红杂交化合物 4b 对血型 T. congolense 寄生虫具有很强的杀胰活性;然而,在一项初步的动物实验中,4b 的体外杀胰效力并不能转化为体内治疗效果。化合物 5、2b 和 5b 对唐诺沃尼氏疟原虫的非膜体活性最强,显示出比参考药物两性霉素 B 更高的杀利什曼活性。这些化合物被确定为早期的抗利什曼病线索,未来的研究将侧重于通过体内疗效评估及其确切的作用机制来证实它们的抗利什曼病潜力。
Investigation of Novel Isatinylhydantoin Derivatives as Potential Anti-Kinetoplastid Agents.
Neglected tropical diseases are a group of infectious diseases with a high endemicity in developing countries of Africa, Asia, and the Americas. Treatment for these diseases depends solely on chemotherapy, which is associated with severe side effects, toxicity, and the development of parasitic resistance. This highlights a critical need to develop new and effective drugs to curb these diseases. As a result, a series of novel isatinylhydantoin derivatives were synthesized and evaluated for in vitro anti-kinetoplastid activity against seven human- or animal-infective Trypanosoma and two human-infective Leishmania species. The synthesized derivatives were tested for potential cytotoxicity against human, animal, and parasite host-related cell lines. The isatinylhydantoin hybrid 4 b bearing 5-chloroisatin and p-bromobenzyl moieties, showed strong trypanocidal activity against blood-stage T. congolense parasites; however, the promising in vitro trypanocidal potency of 4 b could not be translated to in vivo treatment efficacy in a preliminary animal study. Compounds 5, 2 b, and 5 b, were the most active against amastigotes of L. donovani, showing higher leishmanicidal activity than the reference drug, amphotericin B. These compounds were identified as early antileishmanicidal leads, and future investigations will focus on confirming their antileishmanial potential through in vivo efficacy evaluation as well as their exact mechanism of action.
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Quality research. Outstanding publications. With an impact factor of 3.124 (2019), ChemMedChem is a top journal for research at the interface of chemistry, biology and medicine. It is published on behalf of Chemistry Europe, an association of 16 European chemical societies.
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