Instituto de Investigaciones Biotecnológicas Dr. Rodolfo Ugalde, Universidad Nacional de San Martín, CONICET, San Martín, Buenos Aires, Argentina.
Instituto de Investigaciones Biotecnológicas Dr. Rodolfo Ugalde, Universidad Nacional de San Martín, CONICET, San Martín, Buenos Aires, Argentina
Antimicrob Agents Chemother. 2021 Feb 17;65(3). doi: 10.1128/AAC.01330-20.
A common strategy to identify new antiparasitic agents is the targeting of proteases, due to their essential contributions to parasite growth and development. Metacaspases (MCAs) are cysteine proteases present in fungi, protozoa, and plants. These enzymes, which are associated with crucial cellular events in trypanosomes, are absent in the human host, thus arising as attractive drug targets. To find new MCA inhibitors with trypanocidal activity, we adapted a continuous fluorescence enzymatic assay to a medium-throughput format and carried out screening of different compound collections, followed by the construction of dose-response curves for the most promising hits. We used MCA5 from (MCA5) as a model for the identification of inhibitors from the GlaxoSmithKline HAT and CHAGAS chemical boxes. We also assessed a third collection of nine compounds from the Maybridge database that had been identified by virtual screening as potential inhibitors of the cysteine peptidase falcipain-2 (clan CA) from Compound HTS01959 (from the Maybridge collection) was the most potent inhibitor, with a 50% inhibitory concentration (IC) of 14.39 µM; it also inhibited other MCAs from and (MCA2, 4.14 µM; MCA3, 5.04 µM; MCA5, 151 µM). HTS01959 behaved as a reversible, slow-binding, and noncompetitive inhibitor of MCA2, with a mechanism of action that included redox components. Importantly, HTS01959 displayed trypanocidal activity against bloodstream forms of and trypomastigote forms of , without cytotoxic effects on Vero cells. Thus, HTS01959 is a promising starting point to develop more specific and potent chemical structures to target MCAs.
鉴定新抗寄生虫药物的一种常见策略是针对蛋白酶,因为它们对寄生虫的生长和发育有重要贡献。 介体型半胱氨酸蛋白酶(MCAs)存在于真菌、原生动物和植物中。 这些酶与锥虫中关键的细胞事件有关,而在人类宿主中不存在,因此成为有吸引力的药物靶标。 为了寻找具有杀锥虫活性的新型 MCA 抑制剂,我们将连续荧光酶测定法改编为中高通量格式,并对不同化合物库进行了筛选,然后为最有前途的命中物构建剂量反应曲线。 我们使用来自 (MCA5)作为抑制剂鉴定模型,来自 GlaxoSmithKline HAT 和 CHAGAS 化学框。 我们还评估了 Maybridge 数据库中包含 9 种化合物的第三个化合物库,这些化合物通过虚拟筛选被鉴定为来自 (clan CA)的潜在抑制剂。 化合物 HTS01959(来自 Maybridge 库)是最有效的抑制剂,其 50%抑制浓度(IC)为 14.39µM;它还抑制来自 (MCA2,4.14µM;MCA3,5.04µM;MCA5,151µM)的其他 MCAs。 HTS01959 是 MCA2 的可逆、慢结合和非竞争性抑制剂,作用机制包括氧化还原成分。 重要的是,HTS01959 对 和 的血液形式的锥虫具有杀锥虫活性,而对 Vero 细胞没有细胞毒性作用。 因此,HTS01959 是开发更特异和更有效的针对 MCA 的化学结构的有前途的起点。
