Multiplexed Multicolor Antiviral Assay Amenable for High-throughput Research

Overview

Journal Nat Commun

Specialty Biology

Date 2024 Jan 3

PMID 38168091

Authors

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

Affiliations

Soon will be listed here.

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.

Citing Articles

A multiplex method for rapidly identifying viral protease inhibitors.

Hong S, Resnick S, Iketani S, Cha J, Albert B, Fazekas C Mol Syst Biol. 2025; 21(2):158-172.

PMID: 39762652 PMC: 11790949. DOI: 10.1038/s44320-024-00082-1.

Multiplexed multicolor antiviral assay amenable for high-throughput research.

Li L, Chiu W, Huang Y, Rasulova M, Vercruysse T, Thibaut H Nat Commun. 2024; 15(1):42.

PMID: 38168091 PMC: 10761739. DOI: 10.1038/s41467-023-44339-z.

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