Iterative Optimization and Structure–Activity Relationship Studies of Oseltamivir Amino Derivatives as Potent and Selective Neuraminidase Inhibitors via Targeting 150-Cavity

With our continuous endeavors in seeking neuraminidase (NA) inhibitors, we reported herein three series of novel oseltamivir amino derivatives with the goal of exploring the druggable chemical space inside the 150-cavity of influenza virus NAs. Among them, around half of the compounds in series C were demonstrated to be better inhibitors against both wild-type and oseltamivir-resistant group-1 NAs than oseltamivir carboxylate (OSC). Notably, compounds 12d, 12e, 15e, and 15i showed more potent or equipotent antiviral activity against H1N1, H5N1, and H5N8 viruses compared to OSC in cellular assays. Furthermore, compounds 12e and 15e exhibited high metabolic stability in human liver microsomes (HLMs) and low inhibitory effect on main cytochrome P450 (CYP) enzymes, as well as low acute/subacute toxicity and certain antiviral efficacy in vivo. Also, pharmacokinetic (PK) and molecular docking studies were performed. Overall, 12e and 15e possess great potential to serve as anti-influenza candidates and are worthy of further investigation.

在持续寻求神经氨酸酶（NA）抑制剂的过程中，本研究报告了三系列新颖的奥司他韦氨基酸衍生物，旨在探查流感病毒NA的150个腔隙内的可药物化学空间。其中，系列C中约有一半的化合物被证实相较于奥司他韦羧酸盐（OSC），对野生型及奥司他韦耐药的1组NA具有更优的抑制效果。值得注意的是，化合物12d、12e、15e和15i在细胞实验中展现出对H1N1、H5N1和H5N8病毒的更强或等效的病毒抑制作用。此外，化合物12e和15e在人体肝微粒体（HLMs）中表现出较高的代谢稳定性，对主要的细胞色素P450（CYP）酶的抑制作用低，且在体内具有较低的急性/亚急性毒性和一定的抗病毒活性。同时，还进行了药代动力学（PK）和分子对接研究。综上所述，12e和15e具备作为抗流感候选药物的巨大潜力，值得进一步研究。