Nature Communications (Jan 2024)

Multiplexed multicolor antiviral assay amenable for high-throughput research

  • Li-Hsin Li,
  • Winston Chiu,
  • Yun-An Huang,
  • Madina Rasulova,
  • Thomas Vercruysse,
  • Hendrik Jan Thibaut,
  • Sebastiaan ter Horst,
  • Joana Rocha-Pereira,
  • Greet Vanhoof,
  • Doortje Borrenberghs,
  • Olivia Goethals,
  • Suzanne J. F. Kaptein,
  • Pieter Leyssen,
  • Johan Neyts,
  • Kai Dallmeier

DOI
https://doi.org/10.1038/s41467-023-44339-z
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 15

Abstract

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Abstract To curb viral epidemics and pandemics, antiviral drugs are needed with activity against entire genera or families of viruses. Here, we develop a cell-based multiplex antiviral assay for high-throughput screening against multiple viruses at once, as demonstrated by using three distantly related orthoflaviviruses: dengue, Japanese encephalitis and yellow fever virus. Each virus is tagged with a distinct fluorescent protein, enabling individual monitoring in cell culture through high-content imaging. Specific antisera and small-molecule inhibitors are employed to validate that multiplexing approach yields comparable inhibition profiles to single-virus infection assays. To facilitate downstream analysis, a kernel is developed to deconvolute and reduce the multidimensional quantitative data to three cartesian coordinates. The methodology is applicable to viruses from different families as exemplified by co-infections with chikungunya, parainfluenza and Bunyamwera viruses. The multiplex approach is expected to facilitate the discovery of broader-spectrum antivirals, as shown in a pilot screen of approximately 1200 drug-like small-molecules.