The identification of novel, high affinity AQP9 inhibitors in an intracellular binding site.

Q3 Biochemistry, Genetics and Molecular Biology Molecular Membrane Biology Pub Date : 2013-05-01 Epub Date: 2013-03-01 DOI:10.3109/09687688.2013.773095
Sören J Wacker, Camilo Aponte-Santamaría, Per Kjellbom, Søren Nielsen, Bert L de Groot, Michael Rützler
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引用次数: 31

Abstract

Background: The involvement of aquaporin (AQP) water and small solute channels in the etiology of several diseases, including cancer, neuromyelitis optica and body fluid imbalance disorders, has been suggested previously. Furthermore, results obtained in a mouse model suggested that AQP9 function contributes to hyperglycemia in type-2 diabetes. In addition, the physiological role of several AQP family members remains poorly understood. Small molecule inhibitors of AQPs are therefore desirable to further study AQP physiological and pathophysiological functions.

Methods: The binding of recently established AQP9 inhibitors to a homology model of AQP9 was investigated by molecular dynamics simulations and molecular docking. Putative inhibitor binding sites identified with this procedure were modified by site-directed mutagenesis. Active compounds were measured in a mammalian cell water permeability assay of mutated AQP9 isoforms and tested for changes in inhibitory effects.

Controls: Three independent cell lines were established for each mutated AQP9 isoform and functionality of mutant isoforms was established.

Principal findings: We have identified putative binding sites of recently established AQP9 inhibitors. This information facilitated successful identification of novel AQP9 inhibitors with low micromolar IC50 values in a cell based assay by in silico screening of a compound library targeting specifically this binding site.

Significance: We have established a successful strategy for AQP small molecule inhibitor identification. AQP inhibitors may be relevant as experimental tools, to enhance our understanding of AQP function, and in the treatment of various diseases.

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在细胞内结合位点鉴定新的高亲和力AQP9抑制剂。
背景:水通道蛋白(AQP)水和小溶质通道参与多种疾病的病因学研究,包括癌症、视神经脊髓炎和体液失调。此外,在小鼠模型中获得的结果表明,AQP9功能有助于2型糖尿病的高血糖。此外,一些AQP家族成员的生理作用尚不清楚。因此,AQP的小分子抑制剂是进一步研究AQP生理和病理生理功能的必要条件。方法:通过分子动力学模拟和分子对接研究新建立的AQP9抑制剂与AQP9同源模型的结合。通过该方法确定的推定抑制剂结合位点通过定点诱变进行修饰。在哺乳动物细胞中对突变AQP9异构体进行透水性测定,检测活性化合物的抑制作用变化。对照:为每个AQP9突变异构体建立3个独立细胞系,并确定突变异构体的功能。主要发现:我们已经确定了最近建立的AQP9抑制剂的推定结合位点。这一信息有助于在基于细胞的实验中成功鉴定具有低微摩尔IC50值的新型AQP9抑制剂,通过计算机筛选特异性靶向该结合位点的化合物文库。意义:建立了AQP小分子抑制剂鉴定的成功策略。AQP抑制剂可能作为相关的实验工具,增强我们对AQP功能的认识,并用于治疗各种疾病。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Molecular Membrane Biology
Molecular Membrane Biology 生物-生化与分子生物学
CiteScore
4.80
自引率
0.00%
发文量
0
审稿时长
>12 weeks
期刊介绍: Cessation. Molecular Membrane Biology provides a forum for high quality research that serves to advance knowledge in molecular aspects of biological membrane structure and function. The journal welcomes submissions of original research papers and reviews in the following areas: • Membrane receptors and signalling • Membrane transporters, pores and channels • Synthesis and structure of membrane proteins • Membrane translocation and targeting • Lipid organisation and asymmetry • Model membranes • Membrane trafficking • Cytoskeletal and extracellular membrane interactions • Cell adhesion and intercellular interactions • Molecular dynamics and molecular modelling of membranes. • Antimicrobial peptides.
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