Design of a Fluorescence Polarization Probe for Enterovirus 2C Proteins

Kan Li; Hiwot A. Demssie; Jun Wang

doi:10.1021/acs.jmedchem.5c01219

Design of a Fluorescence Polarization Probe for Enterovirus 2C Proteins

Kan Li
, Hiwot A. Demssie
, Jun Wang

Research output: Contribution to journal › Article › peer-review

Abstract

Enteroviruses (EVs), such as EV-D68, EV-A71, and CVB3, cause significant human disease; yet, no antivirals are currently approved. The highly conserved 2C protein, an essential AAA+ ATPase and helicase, is a prime antiviral target; however, it lacks suitable assays for inhibitor screening. Here, we report a fluorescence polarization (FP) assay using a rationally designed probe, Jun14157, which binds a conserved allosteric site in 2C with high affinity. This assay enables the quantitative assessment of binding to diverse 2C inhibitors with high signal-to-background ratios, DMSO tolerance, and a strong correlation between FP K_i and cellular EC₅₀. Using this platform, we validated hits from virtual screening and identified two novel inhibitors, Jun15716 and Jun15799. This FP assay offers a robust and scalable tool for the mechanistic characterization and high-throughput screening of 2C-targeting antivirals.

Original language	English (US)
Pages (from-to)	14041-14053
Number of pages	13
Journal	Journal of Medicinal Chemistry
Volume	68
Issue number	13
DOIs	https://doi.org/10.1021/acs.jmedchem.5c01219
State	Published - Jul 10 2025
Externally published	Yes

ASJC Scopus subject areas

Molecular Medicine
Drug Discovery

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10.1021/acs.jmedchem.5c01219

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title = "Design of a Fluorescence Polarization Probe for Enterovirus 2C Proteins",

abstract = "Enteroviruses (EVs), such as EV-D68, EV-A71, and CVB3, cause significant human disease; yet, no antivirals are currently approved. The highly conserved 2C protein, an essential AAA+ ATPase and helicase, is a prime antiviral target; however, it lacks suitable assays for inhibitor screening. Here, we report a fluorescence polarization (FP) assay using a rationally designed probe, Jun14157, which binds a conserved allosteric site in 2C with high affinity. This assay enables the quantitative assessment of binding to diverse 2C inhibitors with high signal-to-background ratios, DMSO tolerance, and a strong correlation between FP Ki and cellular EC50. Using this platform, we validated hits from virtual screening and identified two novel inhibitors, Jun15716 and Jun15799. This FP assay offers a robust and scalable tool for the mechanistic characterization and high-throughput screening of 2C-targeting antivirals.",

author = "Kan Li and Demssie, \{Hiwot A.\} and Jun Wang",

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T1 - Design of a Fluorescence Polarization Probe for Enterovirus 2C Proteins

AU - Li, Kan

AU - Demssie, Hiwot A.

AU - Wang, Jun

PY - 2025/7/10

Y1 - 2025/7/10

N2 - Enteroviruses (EVs), such as EV-D68, EV-A71, and CVB3, cause significant human disease; yet, no antivirals are currently approved. The highly conserved 2C protein, an essential AAA+ ATPase and helicase, is a prime antiviral target; however, it lacks suitable assays for inhibitor screening. Here, we report a fluorescence polarization (FP) assay using a rationally designed probe, Jun14157, which binds a conserved allosteric site in 2C with high affinity. This assay enables the quantitative assessment of binding to diverse 2C inhibitors with high signal-to-background ratios, DMSO tolerance, and a strong correlation between FP Ki and cellular EC50. Using this platform, we validated hits from virtual screening and identified two novel inhibitors, Jun15716 and Jun15799. This FP assay offers a robust and scalable tool for the mechanistic characterization and high-throughput screening of 2C-targeting antivirals.

AB - Enteroviruses (EVs), such as EV-D68, EV-A71, and CVB3, cause significant human disease; yet, no antivirals are currently approved. The highly conserved 2C protein, an essential AAA+ ATPase and helicase, is a prime antiviral target; however, it lacks suitable assays for inhibitor screening. Here, we report a fluorescence polarization (FP) assay using a rationally designed probe, Jun14157, which binds a conserved allosteric site in 2C with high affinity. This assay enables the quantitative assessment of binding to diverse 2C inhibitors with high signal-to-background ratios, DMSO tolerance, and a strong correlation between FP Ki and cellular EC50. Using this platform, we validated hits from virtual screening and identified two novel inhibitors, Jun15716 and Jun15799. This FP assay offers a robust and scalable tool for the mechanistic characterization and high-throughput screening of 2C-targeting antivirals.

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Design of a Fluorescence Polarization Probe for Enterovirus 2C Proteins

Abstract

ASJC Scopus subject areas

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