Antiprotozoal Structure-Activity Relationships of Synthetic Leucinostatin Derivatives and Elucidation of their Mode of Action

Brand Michael; Wang Lei; Agnello Stefano; Gazzola Silvia; Gall Flavio M.; Raguz Luka; Kaiser Marcel; Schmidt Remo S.; Ritschl Amelie; Jelk Jennifer; Hemphill Andrew; Maser Pascal; Butikofer Peter; Adams Michael; Riedl Rainer

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Antiprotozoal Structure-Activity Relationships of Synthetic Leucinostatin Derivatives and Elucidation of their Mode of Action

机译：合成休利素蛋白衍生物的抗丙杂生成结构 - 活性关系及其作用方式的阐明

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Leucinostatin A is one of the most potent antiprotozoal compounds ever described, but little was known on structure-activity relationships (SAR). We used Trypanosoma brucei as a protozoal model organism to test synthetically modified derivatives, resulting in simplified but equally active compounds 2 (ZHAWOC6025) and 4 (ZHAWOC6027), which were subsequently modified in all regions of the molecule to gain an in-depth SAR understanding. The antiprotozoal SAR matched SAR in phospholipid liposomes, where membrane integrity, leaking, and dynamics were studied. The mode of action is discussed based on a structure-activity analysis of derivatives in efficacy, ultrastructural studies in T. brucei, and artificial membrane models, mimicking membrane stability and membrane potential. The main site of antiprotozoal action of natural and synthetic leucinostatins lies in the destabilization of the inner mitochondrial membrane, as demonstrated by ultrastructural analysis, electron microscopy and mitochondrial staining. Long-time sublethal exposure of T. brucei (200 passages) and siRNA screening of 12 ' 000 mutants showed no signs of resistance development to the synthetic derivatives.

机译：白介素A是迄今为止描述的最有效的抗原虫化合物之一，但对其构效关系（SAR）知之甚少。我们使用布氏锥虫作为原生动物模型生物来测试人工修饰的衍生物，得到简化但具有同等活性的化合物2（ZHAWOC6025）和4（ZHAWOC6027），随后在分子的所有区域进行修饰，以获得深入的SAR理解。抗疟原虫SAR与磷脂脂质体中的SAR相匹配，研究了膜完整性、泄漏和动力学。根据药效中衍生物的结构-活性分析、布鲁氏菌的超微结构研究以及模拟膜稳定性和膜电位的人工膜模型，对其作用模式进行了讨论。超微结构分析、电子显微镜和线粒体染色表明，天然和合成的白细胞介素抗疟原虫作用的主要部位在于线粒体内膜的不稳定。布鲁氏菌长期亚致死暴露（200代）和12000个突变体的siRNA筛选均未显示对合成衍生物产生耐药性的迹象。

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《Angewandte Chemie》 |2021年第28期|共9页
作者
Brand Michael; Wang Lei; Agnello Stefano; Gazzola Silvia; Gall Flavio M.; Raguz Luka; Kaiser Marcel; Schmidt Remo S.; Ritschl Amelie; Jelk Jennifer; Hemphill Andrew; Maser Pascal; Butikofer Peter; Adams Michael; Riedl Rainer;
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作者单位

Zurich Univ Appl Sci ZHAW Ctr Organ &

Med Chem Inst Chem &

Biotechnol Einsiedlerstr 31 CH-8820 Wadenswil Switzerland;

Univ Bern Inst Biochem &

Mol Med Buhlstr 28 Bern Switzerland;

Zurich Univ Appl Sci ZHAW Ctr Organ &

Med Chem Inst Chem &

Biotechnol Einsiedlerstr 31 CH-8820 Wadenswil Switzerland;

Zurich Univ Appl Sci ZHAW Ctr Organ &

Med Chem Inst Chem &

Biotechnol Einsiedlerstr 31 CH-8820 Wadenswil Switzerland;

Zurich Univ Appl Sci ZHAW Ctr Organ &

Med Chem Inst Chem &

Biotechnol Einsiedlerstr 31 CH-8820 Wadenswil Switzerland;

Zurich Univ Appl Sci ZHAW Ctr Organ &

Med Chem Inst Chem &

Biotechnol Einsiedlerstr 31 CH-8820 Wadenswil Switzerland;

Swiss Trop &

Publ Hlth Inst Socinstr 57 CH-4051 Basel Switzerland;

Swiss Trop &

Publ Hlth Inst Socinstr 57 CH-4051 Basel Switzerland;

Swiss Trop &

Publ Hlth Inst Socinstr 57 CH-4051 Basel Switzerland;

Univ Bern Inst Biochem &

Mol Med Buhlstr 28 Bern Switzerland;

Univ Bern Vetsuisse Fac Inst Parasitol Langgass Str 122 CH-3012 Bern Switzerland;

Swiss Trop &

Publ Hlth Inst Socinstr 57 CH-4051 Basel Switzerland;

Univ Bern Inst Biochem &

Mol Med Buhlstr 28 Bern Switzerland;

Bacoba AG Elisabethenstr 15 CH-15 Basel Switzerland;

Zurich Univ Appl Sci ZHAW Ctr Organ &

Med Chem Inst Chem &

Biotechnol Einsiedlerstr 31 CH-8820 Wadenswil Switzerland;

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正文语种 eng
中图分类应用化学;
关键词
antiparasitic agent; drug discovery; medicinal chemistry; mode of action; peptides;

机译：抗寄生虫药;药物发现;药物化学;行动方式;肽类;

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Antiprotozoal Structure-Activity Relationships of Synthetic Leucinostatin Derivatives and Elucidation of their Mode of Action

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