Frontiers in Plant Science (Jul 2024)

Diterpenoids target SARS-CoV-2 RdRp from the roots of Euphorbia fischeriana Steud

  • Ting Ruan,
  • Ting Ruan,
  • Ting Ruan,
  • Ting Ruan,
  • Zheng-Rui Xiang,
  • Zheng-Rui Xiang,
  • Zheng-Rui Xiang,
  • Yun-Wu Zhang,
  • Yun-Wu Zhang,
  • Yun-Wu Zhang,
  • Shi-Rui Fan,
  • Shi-Rui Fan,
  • Shi-Rui Fan,
  • Juan Ren,
  • Juan Ren,
  • Qian Zhao,
  • Qian Zhao,
  • Xiao-Long Sun,
  • Xiao-Long Sun,
  • Shi-Li Wu,
  • Shi-Li Wu,
  • Li-Li Xu,
  • Li-Li Xu,
  • Miao Qiao,
  • Miao Qiao,
  • Chen-Xu Jing,
  • Xiao-Jiang Hao,
  • Xiao-Jiang Hao,
  • Duo-Zhi Chen,
  • Duo-Zhi Chen

DOI
https://doi.org/10.3389/fpls.2024.1425759
Journal volume & issue
Vol. 15

Abstract

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IntroductionCurrently, the development of new antiviral drugs against COVID-19 remains of significant importance. In traditional Chinese medicine, the herb Euphorbia fischeriana Steud is often used for antiviral treatment, yet its therapeutic effect against the COVID-19 has been scarcely studied. Therefore, this study focuses on the roots of E. fischeriana Steud, exploring its chemical composition, antiviral activity against COVID-19, and the underlying basis of its antiviral activity.MethodsIsolation and purification of phytochemicals from E. fischeriana Steud. The elucidation of their configurations was achieved through a comprehensive suite of 1D and 2D NMR spectroscopic analyses as well as X-ray diffraction. Performed cytopathic effect assays of SARS-CoV-2 using Vero E6 cells. Used molecular docking to screen for small molecule ligands with binding to SARS-CoV-2 RdRp. Microscale thermophoresis (MST) was used to determine the dissociation constant Kd.ResultsUltimately, nine new ent-atisane-type diterpenoid compounds were isolated from E. fischeriana Steud, named Eupfisenoids A-I (compounds 1-9). The compound of 1 was established as a C-19-degraded ent-atisane-type diterpenoid. During the evaluation of these compounds for their antiviral activity against COVID-19, compound 1 exhibited significant antiviral activity. Furthermore, with the aid of computer virtual screening and microscale thermophoresis (MST) technology, it was found that this compound could directly bind to the RNA-dependent RNA polymerase (RdRp, NSP12) of the COVID-19, a key enzyme in virus replication. This suggests that the compound inhibits virus replication by targeting RdRp.DiscussionThrough this research, not only has our understanding of the antiviral components and material basis of E. fischeriana Steud been enriched, but also the potential of atisane-type diterpenoid compounds as antiviral agents against COVID-19 has been discovered. The findings mentioned above will provide valuable insights for the development of drugs against COVID-19.

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