Forsell Pontus, Almqvist Helena, Hillertz Per, Akerud Tomas, Otrocka Magdalena, Eisele Lina, Sun Kai, Andersson Henrik, Trivedi Shephali, Wollberg Anna Ridderstad, Dekker Niek, Rottici Didier, Sandberg Kristian
AstraZeneca R&D, Neuroscience, iMed CNS&P, Södertälje, Sweden.
J Biomol Screen. 2013 Jul;18(6):659-69. doi: 10.1177/1087057113479401. Epub 2013 Mar 4.
The TrkA-PathHunter cell-based assay was used in high-throughput screening (HTS) to identify compounds that inhibit nerve growth factor (NGF)/TrkA signaling. The assay was conducted in a 384-well format, and typical Z' values during HTS ranged from 0.3 to 0.8. The reproducibility of IC50 values was good, and the use of cryopreserved cells was well tolerated, as judged by assay parameters such as Z' and S/B and by comparison of IC50 values obtained with cells in culture. During hit deconvolution, TrkA-kinase inhibitors were identified with ATP-competitive as well as non-ATP-competitive mechanisms of action. Furthermore, other mechanisms of action such as NGF and TrkA antagonists were also identified. Because of the different molecular mechanisms identified, it is possible that subsequent optimization work to increase affinity and selectivity might lead to compounds that could have a better chance to evoke clinical efficacy without the adverse effects observed for nonselective TrkA inhibitors.
基于TrkA的PathHunter细胞检测法用于高通量筛选(HTS),以鉴定抑制神经生长因子(NGF)/TrkA信号传导的化合物。该检测以384孔板形式进行,HTS期间的典型Z'值范围为0.3至0.8。IC50值的重现性良好,通过Z'和S/B等检测参数以及通过比较培养细胞获得的IC50值判断,冷冻保存的细胞耐受性良好。在活性成分解析过程中,鉴定出具有ATP竞争性以及非ATP竞争性作用机制的TrkA激酶抑制剂。此外,还鉴定出其他作用机制,如NGF和TrkA拮抗剂。由于鉴定出了不同的分子机制,后续增加亲和力和选择性的优化工作有可能产生更有机会引发临床疗效且无非选择性TrkA抑制剂所观察到的不良反应的化合物。
