通过靶向PEX3-PEX19相互作用来阻断糖体生物合成的新型杀锥虫抑制剂。

Novel Trypanocidal Inhibitors that Block Glycosome Biogenesis by Targeting PEX3-PEX19 Interaction.

作者信息

Li Mengqiao, Gaussmann Stefan, Tippler Bettina, Ott Julia, Popowicz Grzegorz M, Schliebs Wolfgang, Sattler Michael, Erdmann Ralf, Kalel Vishal C

机构信息

Department of Systems Biochemistry, Faculty of Medicine, Institute of Biochemistry and Pathobiochemistry, Ruhr University Bochum, Bochum, Germany.

Institute of Structural Biology, Helmholtz Zentrum München, Neuherberg, Germany.

出版信息

Front Cell Dev Biol. 2021 Dec 20;9:737159. doi: 10.3389/fcell.2021.737159. eCollection 2021.

DOI:10.3389/fcell.2021.737159

PMID:34988071

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8721105/

Abstract

Human pathogenic trypanosomatid parasites harbor a unique form of peroxisomes termed glycosomes that are essential for parasite viability. We and others previously identified and characterized the essential ortholog TbPEX3, which is the membrane-docking factor for the cytosolic receptor PEX19 bound to the glycosomal membrane proteins. Knockdown of TbPEX3 expression leads to mislocalization of glycosomal membrane and matrix proteins, and subsequent cell death. As an early step in glycosome biogenesis, the PEX3-PEX19 interaction is an attractive drug target. We established a high-throughput assay for TbPEX3-TbPEX19 interaction and screened a compound library for small-molecule inhibitors. Hits from the screen were further validated using an ELISA assay. We identified three compounds, which exhibit significant trypanocidal activity but show no apparent toxicity to human cells. Furthermore, we show that these compounds lead to mislocalization of glycosomal proteins, which is toxic to the trypanosomes. Moreover, NMR-based experiments indicate that the inhibitors bind to PEX3. The inhibitors interfering with glycosomal biogenesis by targeting the TbPEX3-TbPEX19 interaction serve as starting points for further optimization and anti-trypanosomal drug development.

摘要

人类致病锥虫寄生虫含有一种独特形式的过氧化物酶体，称为糖体，它对寄生虫的生存至关重要。我们和其他人之前鉴定并表征了必需的直系同源物TbPEX3，它是与糖体膜蛋白结合的胞质受体PEX19的膜对接因子。敲低TbPEX3表达会导致糖体膜和基质蛋白的定位错误，随后细胞死亡。作为糖体生物发生的早期步骤，PEX3-PEX19相互作用是一个有吸引力的药物靶点。我们建立了一种用于TbPEX3-TbPEX19相互作用的高通量测定方法，并筛选了一个化合物库以寻找小分子抑制剂。通过酶联免疫吸附测定（ELISA）进一步验证了筛选出的活性物质。我们鉴定出三种化合物，它们表现出显著的杀锥虫活性，但对人类细胞没有明显毒性。此外，我们表明这些化合物会导致糖体蛋白的定位错误，这对锥虫有毒性。而且，基于核磁共振（NMR）的实验表明抑制剂与PEX3结合。通过靶向TbPEX3-TbPEX19相互作用来干扰糖体生物发生的抑制剂可作为进一步优化和抗锥虫药物开发的起点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f129/8721105/8a2d9ad6b81c/fcell-09-737159-g001.jpg

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Novel Trypanocidal Inhibitors that Block Glycosome Biogenesis by Targeting PEX3-PEX19 Interaction.通过靶向PEX3-PEX19相互作用来阻断糖体生物合成的新型杀锥虫抑制剂。

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通过靶向PEX3-PEX19相互作用来阻断糖体生物合成的新型杀锥虫抑制剂。

Novel Trypanocidal Inhibitors that Block Glycosome Biogenesis by Targeting PEX3-PEX19 Interaction.

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