Lin Stephen, Sui Jinliang, Cotard Shakira, Fung Brenda, Andersen Jennifer, Zhu Ping, El Messadi Najib, Lehar Joseph, Lee Margaret, Staunton Jane
Zalicus, Inc., Cambridge, Massachusetts, USA.
Assay Drug Dev Technol. 2010 Dec;8(6):669-84. doi: 10.1089/adt.2010.0313. Epub 2010 Nov 4.
Cystic fibrosis (CF) is an inherited, life-threatening disease caused by mutations in the gene encoding cystic fibrosis transmembrane conductance regulator (CFTR), an ABC transporter-class protein and ion channel that transports ions across epithelial cell membranes. The most common mutation leads to the deletion of a single phenylalanine, and the resulting protein, F508del-CFTR, shows reduced trafficking to the membrane and defective channel gating. The ideal therapeutic approach would address both of these defects and restore channel function at the same time. We describe here the application of a combination high-throughput screening to search for synergistic modulators of F508del-CFTR. With the adapted Fischer rat thyroid-yellow fluorescent protein halide flux assay to the combination high-throughput screening platform, we identified many interesting single agents as CFTR modulators from a library of approved drugs and mechanistic probe compounds, and combinations that synergistically modulate F508del-CFTR channel function in Fischer rat thyroid cells, demonstrating the potential for combination therapeutics to address the defects that cause CF.
囊性纤维化(CF)是一种遗传性的、危及生命的疾病,由编码囊性纤维化跨膜传导调节因子(CFTR)的基因突变引起。CFTR是一种ABC转运蛋白家族的蛋白质和离子通道,可跨上皮细胞膜转运离子。最常见的突变导致单个苯丙氨酸缺失,产生的蛋白质F508del-CFTR向细胞膜的转运减少且通道门控存在缺陷。理想的治疗方法应同时解决这两个缺陷并恢复通道功能。我们在此描述了应用组合高通量筛选来寻找F508del-CFTR的协同调节剂。通过将改良的Fischer大鼠甲状腺-黄色荧光蛋白卤化物通量测定法应用于组合高通量筛选平台,我们从获批药物库和机制探针化合物中鉴定出许多有趣的单一药物作为CFTR调节剂,以及能协同调节Fischer大鼠甲状腺细胞中F508del-CFTR通道功能的组合,证明了联合疗法解决导致CF的缺陷的潜力。
