Design, Synthesis, and Testing of Antiprotozoal Activity of Primin and Analogues

H. Nasiri, B. Ceylan, Katharina F. Hohmann, M. Kaiser, H. Schwalbe
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Abstract

A set of conformationally restricted analogues of the natural product primin were synthesized as potential antiprotozoal agents. The synthesis utilizes quinone C-H functionalization methods to enable an efficient and easy access to primin analogues. The antiprotozoal activities of this series were evaluated in a panel of parasites and compared with the natural product primin. For all synthesized primin analogues a potent in vitro activity was found against the pathogen Trypanosoma brucei rhodesiense (IC50 < 0.05 µg/mL). The observed antiprotozoal activity is not related to production of reactive oxygen species (ROS). Initial results of the in vivo experiments with a T. b. rhodesiense rodent animal model of the human disease were also reported. Intraperitoneal injection administration of compound 7 resulted in complete clearance of T. b. rhodesiense in tested rodent animals 24 hours after the last treatment. Our results show that the primin scaffold represents a new scaffold for further development of potent inhibitors of Trypanosoma brucei rhodesiense.
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Primin和类似物的设计、合成和抗原虫活性测试
合成了一组天然产物primin的构象限制性类似物,作为潜在的抗原虫剂。该合成利用醌C-H功能化方法,使其能够高效、方便地获得主要类似物。在一组寄生虫中评估了该系列的抗原虫活性,并与天然产物primin进行了比较。所有合成的先导物类似物均对病原体布氏罗得西亚锥虫具有较强的体外活性(IC50 < 0.05µg/mL)。观察到的抗原虫活性与活性氧(ROS)的产生无关。还报告了用罗得西亚锥虫啮齿动物模型进行人类疾病体内实验的初步结果。最后一次给药24小时后,腹腔注射化合物7可使受试啮齿类动物完全清除罗得西亚锥虫。我们的研究结果表明,先导蛋白支架为进一步开发有效的布氏罗得西亚锥虫抑制剂提供了一种新的支架。
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