Efficient synthesis of antiviral agent uprifosbuvir enabled by new synthetic methods

Artis Klapars; John Y L Chung; John Limanto; Ralph Calabria; Louis-Charles Campeau; Kevin R Campos; Wenyong Chen; Stephen M Dalby; Tyler A Davis; Daniel A DiRocco; Alan M Hyde; Amude M Kassim; Mona Utne Larsen; Guiquan Liu; Peter E Maligres; Aaron Moment; Feng Peng; Rebecca T Ruck; Michael Shevlin; Bryon L Simmons; Zhiguo Jake Song; Lushi Tan; Timothy J Wright; Susan L Zultanski

doi:10.1039/d1sc01978c

Efficient synthesis of antiviral agent uprifosbuvir enabled by new synthetic methods

Chem Sci. 2021 May 19;12(26):9031-9036. doi: 10.1039/d1sc01978c. eCollection 2021 Jul 7.

Authors

Artis Klapars¹, John Y L Chung¹, John Limanto¹, Ralph Calabria¹, Louis-Charles Campeau¹, Kevin R Campos¹, Wenyong Chen¹, Stephen M Dalby¹, Tyler A Davis¹, Daniel A DiRocco¹, Alan M Hyde¹, Amude M Kassim¹, Mona Utne Larsen¹, Guiquan Liu², Peter E Maligres¹, Aaron Moment¹, Feng Peng¹, Rebecca T Ruck¹, Michael Shevlin¹, Bryon L Simmons¹, Zhiguo Jake Song¹, Lushi Tan¹, Timothy J Wright¹, Susan L Zultanski¹

Affiliations

¹ Department of Process Research and Development, Merck & Co., Inc. Rahway New Jersey 07065 USA [email protected].
² WuXi STA 90 Delin Road, Waigaoqiao Free Trade Zone Shanghai 200131 China.

Abstract

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 FeCl₃/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.