Design of novel broad-spectrum antiviral nucleoside analogues using natural bases ring-opening strategy.

Design of novel broad-spectrum antiviral nucleoside analogues using natural bases ring-opening strategy.

Publication date: Aug 01, 2024

The global prevalence of RNA virus infections has presented significant challenges to public health in recent years, necessitating the expansion of its alternative therapeutic library. Due to its evolutional conservation, RNA-dependent RNA polymerase (RdRp) has emerged as a potential target for broad-spectrum antiviral nucleoside analogues. However, after over half a century of structural modification, exploring unclaimed chemical space using frequently-used structural substitution methods to design new nucleoside analogues is challenging. In this study, we explore the use of the “ring-opening” strategy to design new base mimics, thereby using these base mimics to design new nucleoside analogues with broad-spectrum antiviral activities. A total of 29 compounds were synthesized. Their activity against viral RdRp was initially screened using an influenza A virus RdRp high-throughput screening model. Then, the antiviral activity of 38a was verified against influenza virus strain A/PR/8/34 (H1N1), demonstrating a 50% inhibitory concentration (IC) value of 9. 95 μM, which was superior to that of ribavirin (the positive control, IC = 11. 43 μM). Moreover, 38a also has inhibitory activity against coronavirus 229E with an IC of 30. 82 μM. In addition, compounds 42 and 46f exhibit an 82% inhibition rate against vesicular stomatitis virus at a concentration of 20 μM and hardly induce cytotoxicity in host cells. This work demonstrates the feasibility of designing nucleoside analogues with “ring-opening” bases and suggests the “ring-opening” nucleosides may have greater polarity, and designing prodrugs is an important aspect of optimizing their antiviral activity. Future research should focus on enhancing the conformational restriction of open-loop bases to mimic Watson-Crick base pairing better and improve antiviral activity.

Concepts Keywords
95m Animals
Antiviral Antiviral Agents
Coronavirus Antiviral Agents
Global broad‐spectrum antiviral
Library Dogs
Drug Design
Humans
nucleoside analogues
Nucleosides
Nucleosides
RNA-Dependent RNA Polymerase
RNA-Dependent RNA Polymerase
Structure-Activity Relationship

Semantics

Type Source Name
disease MESH RNA virus infections
pathway KEGG RNA polymerase
drug DRUGBANK Influenza A virus
disease MESH influenza
drug DRUGBANK Ribavirin
disease IDO host
drug DRUGBANK Tropicamide
disease VO H1N1 subtype

Original Article

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