Department of Medicinal Chemistry, Key Laboratory of Chemical Biology (Ministry of Education), School of Pharmaceutical Sciences , Shandong University , 44 West Culture Road , 250012 Jinan , Shandong , P.R. China.
Department of Physics, Chemistry, and Pharmacy , University of Southern Denmark , DK-5230 Odense M. , Denmark.
J Med Chem. 2018 Jul 26;61(14):6379-6397. doi: 10.1021/acs.jmedchem.8b00929. Epub 2018 Jul 16.
On the basis of our earlier discovery of N1-selective inhibitors, the 150-cavity of influenza virus neuraminidases (NAs) could be further exploited to yield more potent oseltamivir derivatives. Among the synthesized compounds, 15b and 15c were exceptionally active against both group-1 and -2 NAs. Especially for 09N1, N2, N6, and N9 subtypes, they showed 6.80-12.47 and 1.20-3.94 times greater activity than oseltamivir carboxylate (OSC). They also showed greater inhibitory activity than OSC toward H274Y and E119V variant. In cellular assays, they exhibited greater potency than OSC toward H5N1, H5N2, H5N6, and H5N8 viruses. 15b demonstrated high metabolic stability, low cytotoxicity in vitro, and low acute toxicity in mice. Computational modeling and molecular dynamics studies provided insights into the role of R group of 15b in improving potency toward group-1 and -2 NAs. We believe the successful exploitation of the 150-cavity of NAs represents an important breakthrough in the development of more potent anti-influenza agents.
基于我们早期对 N1 选择性抑制剂的发现,流感病毒神经氨酸酶 (NA) 的 150 腔可以进一步利用,以产生更有效的奥司他韦衍生物。在合成的化合物中,15b 和 15c 对 1 组和 2 组 NA 均具有异常的活性。特别是对于 09N1、N2、N6 和 N9 亚型,它们对奥司他韦羧酸(OSC)的活性分别提高了 6.80-12.47 倍和 1.20-3.94 倍。它们对 H274Y 和 E119V 变体的抑制活性也高于 OSC。在细胞测定中,它们对 H5N1、H5N2、H5N6 和 H5N8 病毒的效力均高于 OSC。15b 表现出较高的代谢稳定性、体外低细胞毒性和小鼠急性毒性低。计算建模和分子动力学研究深入了解了 15b 的 R 基团在提高对 1 组和 2 组 NA 的效力方面的作用。我们相信,成功利用 NA 的 150 腔代表了开发更有效的抗流感药物的重要突破。
