Amidoxime prodrugs convert to potent cell-active multimodal inhibitors of the dengue virus protease

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Swarbrick, C
Zogali, V
Chan, KWK
Kiousis, D
Gwee, CP
Wang, S
Lescar, J
Luo, D
von Itzstein, M
Matsoukas, MT
Panagiotakopoulos, G
Vasudevan, SG
Rassias, G
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2021
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Abstract

The flavivirus genus of the Flaviviridae family comprises Dengue, Zika and West-Nile viruses which constitute unmet medical needs as neither appropriate antivirals nor safe vaccines are available. The dengue NS2BNS3 protease is one of the most promising validated targets for developing a dengue treatment however reported protease inhibitors suffer from toxicity and cellular inefficacy. Here we report SAR on our previously reported Zika-active carbazole scaffold, culminating prodrug compound SP-471P (EC50 1.10 μM, CC50 > 100 μM) that generates SP-471; one of the most potent, non-cytotoxic and cell-active protease inhibitors described in the dengue literature. In cell-based assays, SP-471P leads to inhibition of viral RNA replication and complete abolishment of infective viral particle production even when administered 6 h post-infection. Mechanistically, SP-471 appears to inhibit both normal intermolecular protease processes and intramolecular cleavage events at the NS2BNS3 junction, as well as at NS3 internal sites, all critical for virus replication. These render SP-471 a unique to date multimodal inhibitor of the dengue protease.

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European Journal of Medicinal Chemistry

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224

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Macromolecular and materials chemistry

Organic chemistry

Biochemistry and cell biology

Amidines

Amidoximes

Antiviral agents

Dengue and flaviviruses

Multimodal allosteric inhibitors

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Swarbrick, C; Zogali, V; Chan, KWK; Kiousis, D; Gwee, CP; Wang, S; Lescar, J; Luo, D; von Itzstein, M; Matsoukas, MT; Panagiotakopoulos, G; Vasudevan, SG; Rassias, G, Amidoxime prodrugs convert to potent cell-active multimodal inhibitors of the dengue virus protease, European Journal of Medicinal Chemistry, 2021, 224, pp. 113695

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