Author: Huang, Feng; Chen, Jingliang; Zhang, Junsong; Tan, Likai; Lu, Gui; Luo, Yongjie; Pan, Ting; Liang, Juanran; Li, Qianwen; Luo, Baohong; Zhang, Hui; Lu, Gen
Title: Identification of a novel compound targeting the nuclear export of influenza A virus nucleoprotein Cord-id: xv15gvkt Document date: 2017_11_30
ID: xv15gvkt
Snippet: Although antiviral drugs are available for the treatment of influenza infection, it is an urgent requirement to develop new antiviral drugs regarding the emergence of drugâ€resistant viruses. The nucleoprotein (NP) is conserved among all influenza A viruses (IAVs) and has no cellular equivalent. Therefore, NP is an ideal target for the development of new IAV inhibitors. In this study, we identified a novel antiâ€influenza compound, ZBMDâ€1, from a library of 20,000 compounds using cellâ€base
Document: Although antiviral drugs are available for the treatment of influenza infection, it is an urgent requirement to develop new antiviral drugs regarding the emergence of drugâ€resistant viruses. The nucleoprotein (NP) is conserved among all influenza A viruses (IAVs) and has no cellular equivalent. Therefore, NP is an ideal target for the development of new IAV inhibitors. In this study, we identified a novel antiâ€influenza compound, ZBMDâ€1, from a library of 20,000 compounds using cellâ€based influenza A infection assays. We found that ZBMDâ€1 inhibited the replication of H1N1 and H3N2 influenza A virus strains in vitro, with an IC (50) ranging from 0.41–1.14 μM. Furthermore, ZBMDâ€1 inhibited the polymerase activity and specifically impaired the nuclear export of NP. Further investigation indicated that ZBMDâ€1 binds to the nuclear export signal 3 (NES3) domain and the dimer interface of the NP pocket. ZBMDâ€1 also protected mice that were challenged with lethal doses of A/PR/8/1934 (H1N1) virus, effectively relieving lung histopathology changes, as well as strongly inhibiting the expression of proâ€inflammatory cytokines/chemokines, without inducing toxicity effects in mice. These results suggest that ZBMDâ€1 is a promising antiâ€influenza compound which can be further investigated as a useful strategy against IAVs in the future.
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