Efficient synthesis of antiviral agent uprifosbuvir enabled by new synthetic methods

Efficient synthesis of antiviral agent uprifosbuvir enabled by new synthetic methods

An efficient route to the HCV antiviral agent uprifosbuvir was developed in 5 steps from readily available uridine in 50% overall yield. This concise synthesis was achieved by development of several synthetic methods: (1) complexation-driven selective acyl migration/oxidation; (2) BSA-mediated cycli...

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Veröffentlicht in:Chemical science (Cambridge) 2021-07, Vol.12 (26), p.931-936
Hauptverfasser: Klapars, Artis, Chung, John Y. L, Limanto, John, Calabria, Ralph, Campeau, Louis-Charles, Campos, Kevin R, Chen, Wenyong, Dalby, Stephen M, Davis, Tyler A, DiRocco, Daniel A, Hyde, Alan M, Kassim, Amude M, Larsen, Mona Utne, Liu, Guiquan, Maligres, Peter E, Moment, Aaron, Peng, Feng, Ruck, Rebecca T, Shevlin, Michael, Simmons, Bryon L, Song, Zhiguo Jake, Tan, Lushi, Wright, Timothy J, Zultanski, Susan L
Format: Artikel
Sprache:eng
Schlagworte:
Chemistry
Ferric chloride
Hydrochlorination
Nucleotides
Oxidation
Stereoselectivity
Synthesis
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Zusammenfassung:An efficient route to the HCV antiviral agent uprifosbuvir was developed in 5 steps from readily available uridine in 50% overall yield. This concise synthesis was achieved by development of several synthetic methods: (1) complexation-driven selective acyl migration/oxidation; (2) BSA-mediated cyclization to anhydrouridine; (3) hydrochlorination using FeCl 3 /TMDSO; (4) dynamic stereoselective phosphoramidation using a chiral nucleophilic catalyst. The new route improves the yield of uprifosbuvir 50-fold over the previous manufacturing process and expands the tool set available for synthesis of antiviral nucleotides. An efficient route to the HCV antiviral agent uprifosbuvir was developed in 5 steps from readily available uridine in 50% overall yield.
ISSN:2041-6520
2041-6539
DOI:10.1039/d1sc01978c