Bioengineering and Semisynthesis of an Optimized Cyclophilin Inhibitor for Treatment of Chronic Viral Infection

Hansson, Magnus Joakim; Moss, Steven James; Bobardt, Michael; Chatterji, Udayan; Coates, Nigel; Garcia-Rivera, Jose A.; Elmér, Eskil; Kendrew, Steve; Leyssen, Pieter; Neyts, Johan; Nur-E-Alam, Mohammad; Warneck, Tony; Wilkinson, Barrie; Gallay, Philippe; Gregory, Matthew Alan

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Bioengineering and Semisynthesis of an Optimized Cyclophilin Inhibitor for Treatment of Chronic Viral Infection

Authors: Magnus Joakim Hansson
Steven James Moss
Michael Bobardt
Udayan Chatterji
Nigel Coates
Jose A. Garcia-Rivera
Eskil Elmér
Steve Kendrew
Pieter Leyssen
Johan Neyts
Mohammad Nur-E-Alam
Tony Warneck
Barrie Wilkinson
Philippe Gallay
Matthew Alan Gregory
Publication date: 2015
Publisher: Elsevier Ltd.
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Abstract

SummaryInhibition of host-encoded targets, such as the cyclophilins, provides an opportunity to generate potent high barrier to resistance antivirals for the treatment of a broad range of viral diseases. However, many host-targeted agents are natural products, which can be difficult to optimize using synthetic chemistry alone. We describe the orthogonal combination of bioengineering and semisynthetic chemistry to optimize the drug-like properties of sanglifehrin A, a known cyclophilin inhibitor of mixed nonribosomal peptide/polyketide origin, to generate the drug candidate NVP018 (formerly BC556). NVP018 is a potent inhibitor of hepatitis B virus, hepatitis C virus (HCV), and HIV-1 replication, shows minimal inhibition of major drug transporters, and has a high barrier to generation of both HCV and HIV-1 resistance

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Last time updated on 04/05/2017

This paper was published in Elsevier - Publisher Connector .

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