G Luoni scite author profile

We report the application of our phosphoramidate ProTide technology to the ribonucleoside analogue 4'-azidouridine to generate novel antiviral agents for the inhibition of hepatitis C virus (HCV). 4'-Azidouridine did not inhibit HCV, although 4'-azidocytidine was a potent inhibitor of HCV replication under similar assay conditions. However 4'-azidouridine triphosphate was a potent inhibitor of RNA synthesis by HCV polymerase, raising the question as to whether our phosphoramidate ProTide approach could effectively deliver 4'-azidouridine monophosphate to HCV replicon cells and unleash the antiviral potential of the triphosphate. Twenty-two phosphoramidates were prepared, including variations in the aryl, ester, and amino acid regions. A number of compounds showed sub-micromolar inhibition of HCV in cell culture without detectable cytotoxicity. These results confirm that phosphoramidate ProTides can deliver monophosphates of ribonucleoside analogues and suggest a potential path to the generation of novel antiviral agents against HCV infection. The generic message is that ProTide synthesis from inactive parent nucleosides may be a warranted drug discovery strategy.

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Furano Pyrimidines as Novel Potent and Selective Anti-VZV Agents

McGuigan

Brancale

Barucki

et al. 2001

Antivir Chem Chemother

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Bicyclic furano pyrimidine nucleosides have been found to be highly potent and selective inhibitors of varicella zoster virus (VZV). They are inactive against herpes simplex virus and have been known for several decades as (unwanted) synthetic by-products in the Pd-catalysed coupling of acetylenes to 5-iodo nucleosides. These fluorescent bicyclic nucleosides are now established as a new family of potent antivirals. They are unusual in that they exhibit complete specificity for VZV and require an alkyl (or alkylaryl) side-chain for biological activity. The latter requirement confers extremely high lipophilicities on these compounds, unknown amongst chemotherapeutic nucleosides, which may be of considerable importance in formulation, dosing and tissue distribution. The most potent compounds reported are p-alkylaryl compounds, with EC50 values below 1 nM versus VZV and selectivity index values of around 1,000,000. Here, we review the discovery, synthesis, characterization, antiviral profile, SAR, mechanism of action and development prospects for this new family of antivirals.

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The application of phosphoramidate ProTide technology to the potent anti-HCV compound 4′-azidocytidine (R1479)

McGuigan

Kelleher

Perrone

et al. 2009

Bioorganic & Medicinal Chemistry Letters

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Bicyclic nucleoside inhibitors of Varicella–Zoster virus: The effect of branching in the p-alkylphenyl side chain

Luoni¹,

McGuigan²,

Andrei³

et al. 2005

Bioorganic & Medicinal Chemistry Letters

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G Luoni

Preclinical development of bicyclic nucleoside analogues as potent and selective inhibitors of varicella zoster virus

Application of the Phosphoramidate ProTide Approach to 4‘-Azidouridine Confers Sub-micromolar Potency versus Hepatitis C Virus on an Inactive Nucleoside

Furano Pyrimidines as Novel Potent and Selective Anti-VZV Agents

The application of phosphoramidate ProTide technology to the potent anti-HCV compound 4′-azidocytidine (R1479)

Bicyclic nucleoside inhibitors of Varicella–Zoster virus: The effect of branching in the p-alkylphenyl side chain

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