Pharmaceuticals (Nov 2022)

Antiviral Effect of <i>Stenocline ericoides</i> DC. and <i>Stenocline inuloides</i> DC., Two Flavonoid-Rich Endemic Plants from Madagascar, against Dengue and Zika Viruses

  • Fenia D. Ramiharimanana,
  • Juliano G. Haddad,
  • Maminiaina A. Andrianavalonirina,
  • Cécile Apel,
  • Florent Olivon,
  • Nicolas Diotel,
  • Philippe Desprès,
  • Voahangy Vestalys Ramanandraibe,
  • Chaker El Kalamouni

DOI
https://doi.org/10.3390/ph15121500
Journal volume & issue
Vol. 15, no. 12
p. 1500

Abstract

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Dengue and Zika viruses are identified as the most medically important arthropod-borne viral pathogens. Over the past 20 years, the global dengue incidence has dramatically increased with epidemics of severe dengue where the case fatality rate can reach up to 20% in untreated patients. The association between Zika virus infection and severe congenital anomalies was first reported in 2015. Today no specific antiviral therapies are available for dengue and Zika virus infections, accentuating the need of adapted antiviral strategies based on medicinal plant drug discovery. Plants are a potential source of antiviral phytocompounds which act primarily by blocking virus entry in the host-cell. In the present study, we evaluated whether crude extracts from Stenocline ericoides DC. and Stenocline inuloides DC., two endemic plants from Madagascar, may have antiviral effects against dengue and Zika viruses. We showed that S. ericoides has virucidal action whereas S. inuloides inhibits the early steps of virus infection with a non-cytotoxic effect in human cells. The administration of S. ericoides and S. inuloides extracts in zebrafish had no effect on the behavior of animals at the active doses against dengue and Zika viruses, suggesting the absence of adverse effects at these doses. LC-HRMS2 and molecular networking analyses revealed the richness of these two plants in polyphenols and flavonoid with the presence of clusters of phytocompounds specific to each Stenocline species. Consequently, S. ericoides and S. inuloides represent potential sources for natural and safe antiviral phytocompounds against flaviviruses of medical concern.

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