Emetine dihydrochloride inhibits Chikungunya virus nsP2 helicase and shows antiviral activity in the cell culture and mouse model of virus infection

  1. Anshula Sharma
  2. Chandru Subramani
  3. KA Shouri
  4. Ghanshyam Sharma
  5. Brohmomoy Basu
  6. Abhay Deep Pandey
  7. Archana Rout
  8. Devendra Sharma
  9. Deepti Jain
  10. Sudhanshu Vrati
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Abstract

Chikungunya virus (CHIKV), a mosquito-borne alphavirus, causes frequent epidemics of chikungunya fever across the world and has become a significant medical challenge, warranting the development of novel antivirals. A cell imaging-based high-content screening of the Spectrum collection of small molecules, containing all the US and international drug molecules, identified Emetine dihydrochloride (ED) as a potent antiviral against CHIKV. ED inhibited CHIKV replication in the C57BL/6 mouse model of chikungunya disease, resulting in significantly lower viremia. Importantly, clinical symptoms of joint swelling were altogether absent in the CHIKV-infected mice treated with ED. In the ERMS cells, ED inhibited the CHIKV uptake, and the virus replication early during the virus life cycle by inhibiting the viral RNA synthesis, resulting in the inhibition of the viral protein synthesis. ED was predicted to bind the helicase domain of the CHIKV non-structural protein nsP2 by in silico methods. The ED binding to the nsP2 protein and its helicase domain was validated in vitro by microscale thermophoresis and isothermal titration calorimetry. Importantly, ED inhibited the CHIKV nsP2 helicase activity in vitro in a dose-dependent manner. These data demonstrate the potential of ED to be repurposed as a novel CHIKV antiviral, warranting clinical development.

AUTHOR SUMMARY

Chikungunya virus (CHIKV) spreads through the bites of the virus-infected Aedes mosquitoes. The virus causes frequent epidemics of chikungunya fever involving severe joint edema and muscle pain. The virus activity has been recorded in more than 100 countries in Asia, Africa, South and Central America, and Europe, and it has become endemic in several regions of the world. In 2024, around 480,000 CHIKV cases and over 200 deaths were reported worldwide. While a CHIKV vaccine was recently approved, no virus-specific antiviral therapy is available. Considering the global medical significance of the virus, the development of effective CHIKV antivirals is a priority. With a view to repurposing an existing drug, we screened a collection of all the approved US and international drug molecules and identified Emetine dihydrochloride (ED) as a potent inhibitor of CHIKV replication in the cell culture model. The CHIKV-infected mice treated with ED showed reduced virus replication and no joint swelling, which is a typical clinical symptom of CHIKV disease. Our studies show that ED binds the CHIKV nsP2, inhibiting its helicase action, which is required for replicating the viral genomic RNA and producing the viral proteins. In the past, emetine has been used in humans to treat amoebiasis. Our work thus shows the potential of the drug emetine to be repurposed for treating CHIKV patients.

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  1. Version published to 10.1101/2025.06.20.660672v1 on bioRxiv