Modified Synthesis and Isolation of an Advanced Intermediate of Remdesivir-Reference-Cited by-同舟云学术

Modified Synthesis and Isolation of an Advanced Intermediate of Remdesivir

Published:2023-12 Issue:23 Volume:26 Page:2143-2150
ISSN:1385-2728
Container-title:Current Organic Chemistry
language:en
Short-container-title:COC

Author:

Mohite Dhanaji M.¹²,Pandey Arjun P.³,Chavhan Pandurang M.¹⁴

Affiliation:

1. Department of Chemistry, Amity School of Applied Sciences, Amity University Mumbai, 421206, Maharashtra, India

2. Research and Development, Excel Industries Ltd, MIDC, Roha, 402116, Raigad, Maharashtra, India

3. Research and Development Centre, Neogen Chemical Ltd, Vadodara, 391450, Gujarat, India

4. Department of Industrial Chemistry, ITM Vocational University, Vadodara, 390019, Gujarat, India

Abstract

Abstract: Synthesis and isolation of an advanced intermediate (S)-2-Ethylbutyl 2-(((S)-(4- nitrophenoxy) (phenoxy) phosphoryl) amino) propanoate (1b), which is being used for the manufacture of the prodrug diastereoisomer 1d called Remdesivir have been carried out in high yield with efficient stereoselectivity. The isolated advanced intermediate 1b was a diastereoselective nucleoside phosphoramidate prodrug used as an antiviral agent having a mixture of two (SS) and (SR) diastereomers with stereocenter at phosphorus, which was purified by converting into a more stable diastereoselective isomer (SS) by simple physical fractional crystallization process, resulting in an improved yield of ~45%. The recrystallization has been afforded diastereomerically in 99% pure (SS)-isomer 1b. The 1H NMR characterization data confirm the (SS)-isomer (1b). The developed process holds significant potential for large-scale reactions relatively with commercially available low-cost solvents and co-solvents, resulting in an alternative cheaper process.

Publisher

Bentham Science Publishers Ltd.

Subject

Organic Chemistry

Reference18 articles.

1. Eastman R.T.; Roth J.S.; Brimacombe K.R.; Simeonov A.; Shen M.; Patnaik S.; Hall M.D.; Remdesivir: A review of its discovery and development leading to emergency use authorization for treatment of COVID-19. ACS Cent Sci 2020,6,672-683

2. Gordon C.J.; Tchesnokov E.P.; Feng J.Y.; Porter D.P.; Gotte M.; The antiviral compound remdesivir potently inhibits RNA-dependent RNA polymerase from Middle East respiratory syndrome coronavirus. J Biol Chem 2020,295,4773-4779

3. Gordon C.J.; Tchesnokov E.P.; Woolner E.; Perry J.K.; Feng J.Y.; Porter D.P.; Gotte M.; Remdesivir is a direct-acting antiviral that inhibits RNA-dependent RNA polymerase from severe acute respiratory syndrome coronavirus 2 with high potency. J Biol Chem 2020,295,6785-6797

4. Siegel D.; Hui H.C.; Doerffler E.; Clarke M.O.; Chun K.; Zhang L.; Neville S.; Carra E.; Lew W.; Ross B.; Wang Q.; Wolfe L.; Jordan R.; Soloveva V.; Knox J.; Perry J.; Perron M.; Stray K.M.; Barauskas O.; Feng J.Y.; Xu Y.; Lee G.; Rheingold A.L.; Ray A.S.; Bannister R.; Strickley R.; Swaminathan S.; Lee W.A.; Bavari S.; Cihlar T.; Lo M.K.; Warren T.K.; Mackman R.L.; Discovery and synthesis of a phosphoramidate prodrug of a Pyrrolo[2,1-f][triazin-4-amino] Adenine C-Nucleoside (GS-5734) for the treatment of Ebola and emerging viruses. J Med Chem 2017,60,1648-1661

5. Warren T.K.; Jordan R.; Lo M.K.; Ray A.S.; Mackman R.L.; Soloveva V.; Siegel D.; Perron M.; Bannister R.; Hui H.C.; LaSRon, N.; Strickley, R.; Wells, J.; Stuthman, K.S.; Van Tongeren, S.A.; Garza, N.L.; Donnelly, G.; Shurtleff, A.C.; Retterer, C.J.; Gharaibeh, D.; Zamani, R.; Kenny, T.; Eaton, B.P.; Grimes, E.; Welch, L.S.; Gomba, L.; Wilhelmsen, C.L.; Nichols, D.K.; Nuss, J.E.; Nagle, E.R.; Kugelman, J.R.; Palacios, G.; Doerffler, E.; Neville, S.; Carra, E.; Clarke, M.O.; Zhang, L.; Lew, W.; Ross, B.; Wang, Q.; Chun, K.; Wolfe, L.; Babusis, D.; Park, Y.; Stray, K. M.; Trancheva, I.; Feng, J. Y.; Barauskas, O.; Xu, Y.; Wong, P.; Braun, M.R.; Flint, M.; McMullan, L.K.; Chen, S.S.; Fearns, R.; Swaminathan, S.; Maye S.R.; Spiropoulou, C.F.; Lee, W.A.; Nichol, S.T.; Cihlar, T.; Bavari, S. Therapeutic efficacy of the small molecule GS-5734 against Ebola virus in rhesus monkeys. Nature 2016,531,381-385