Inhibition of Dengue Virus Through Suppression of Host Pyrimidine Biosynthesis

Overview

Journal J Virol

Publisher American Society for Microbiology

Date 2011 Apr 22

PMID 21507975

Citations 75

Authors

Qing-Yin Wang

Simon Bushell

Min Qing

Hao Ying Xu

Aurelio Bonavia

Sandra Nunes

Jing Zhou

Mee Kian Poh

Paola Florez de Sessions

Pornwaratt Niyomrattanakit

Hongping Dong

Keith Hoffmaster

Anne Goh

Shahul Nilar

Wouter Schul

Susan Jones

Laura Kramer

Teresa Compton

Pei-Yong Shi

Affiliations

Soon will be listed here.

Abstract

Viral replication relies on the host to supply nucleosides. Host enzymes involved in nucleoside biosynthesis are potential targets for antiviral development. Ribavirin (a known antiviral drug) is such an inhibitor that suppresses guanine biosynthesis; depletion of the intracellular GTP pool was shown to be the major mechanism to inhibit flavivirus. Along similar lines, inhibitors of the pyrimidine biosynthesis pathway could be targeted for potential antiviral development. Here we report on a novel antiviral compound (NITD-982) that inhibits host dihydroorotate dehydrogenase (DHODH), an enzyme required for pyrimidine biosynthesis. The inhibitor was identified through screening 1.8 million compounds using a dengue virus (DENV) infection assay. The compound contains an isoxazole-pyrazole core structure, and it inhibited DENV with a 50% effective concentration (EC(50)) of 2.4 nM and a 50% cytotoxic concentration (CC(50)) of >5 μM. NITD-982 has a broad antiviral spectrum, inhibiting both flaviviruses and nonflaviviruses with nanomolar EC(90)s. We also show that (i) the compound inhibited the enzymatic activity of recombinant DHODH, (ii) an NITD-982 analogue directly bound to the DHODH protein, (iii) supplementing the culture medium with uridine reversed the compound-mediated antiviral activity, and (iv) DENV type 2 (DENV-2) variants resistant to brequinar (a known DHODH inhibitor) were cross resistant to NITD-982. Collectively, the results demonstrate that the compound inhibits DENV through depleting the intracellular pyrimidine pool. In contrast to the in vitro potency, the compound did not show any efficacy in the DENV-AG129 mouse model. The lack of in vivo efficacy is likely due to the exogenous uptake of pyrimidine from the diet or to a high plasma protein-binding activity of the current compound.

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