What does this research mean for the field?

Optimized (S)-fluoxetine analogues, specifically compound 53, are highly selective anti-enterovirus agents that effectively inhibit CV-B3 and EV-D68 by targeting the viral 2C protein. Novelty: ClaimNovelty.NOVEL_FINDING. Consensus alignment: ConsensusAlignment.NEUTRAL.

March 3, 2026Open Access

New fluoxetine analogues as anti-enterovirus agents targeting 2C protein

Key Points

Compound 53 shows significant antiviral activity, specifically with EC50 values of 0.5 μM against CV-B3 and 0.4 μM against EV-D68.
The research highlights the optimization of (S)-fluoxetine, improving its effectiveness through rational design and computational methods leading to new inhibitors.

Structured PICO

Population

Enzyme and cell-based assays for human non-poliovirus enteroviruses (CV-B3, EV-A71, EV-D68)

Intervention

Novel fluoxetine analogues (specifically compound 53)

Comparator

(S)-fluoxetine

Outcome

Inhibition of enterovirus replication (EC50) and selectivity indexsurrogate

Optimization of (S)-fluoxetine yielded compound 53, a novel inhibitor of the enterovirus 2C protein with improved potency and selectivity in vitro.

Abstract

There are currently no antiviral drugs available to treat or prevent life-threatening human non-poliovirus enterovirus infections, such as those caused by CV-B3, EV-A71 or EV-D68. Our aim is to develop novel inhibitors that target the non-structural ATPase/Helicase 2C protein, which is involved in the RNA replication process that is essential for enterovirus replication, among other functions. In this study, we describe the optimization of (S)-fluoxetine, a promising hit identified through drug repurposing that binds to an allosteric site on the CV-B3 2C ATPase domain. Our optimization process was guided by rational design, X-ray crystallographic structures, computational docking, and validation by enzyme and cell-based assays, leading to several new inhibitors, among which compound 53 (CV-B3 EC50 = 0.5 μM and EV-D68 EC50 = 0.4 μM), a novel anti-enterovirus with higher selectivity indexes than (S)-fluoxetine.

New fluoxetine analogues as anti-enterovirus agents targeting 2C protein

Key Points

Structured PICO

Abstract

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