888504-27-6Relevant articles and documents
(Chloromethyl)dimethylchlorosilane-KF: A Two-Step Solution to the Selectivity Problem in the Methylation of a Pyrimidone Intermediate en Route to Raltegravir
Stathakis, Christos I.,Gkizis, Petros L.,Alexandraki, Elli S.,Trakossas, Sakellarios,Terzidis, Michael,Neokosmidis, Efstratios,Zacharis, Constantinos K.,Vasiliadou, Christina,Vastardi, Elli,Andreou, Thanos,Zitrou, Asteria,Varvogli, Anastasia-Aikaterini,Koftis, Theocharis V.
, p. 1413 - 1418 (2017/09/22)
The present work describes a two-step process, namely, silylation with (chloromethyl)dimethylchlorosilane and desilylation, to address the selectivity problem in the N-methylation of a pyrimidone intermediate toward the synthesis of the raltegravir active pharmaceutical ingredient. The said methodology delivers the desired drug substance in which the O-methylated impurity content is below the detection limit by high-performance liquid chromatography analysis. Moreover, this two-step, one-pot procedure provides an apparent advantage in terms of environmental impact with respect to the optimum approach described in the literature, while it compares equally well in terms of cost and operational simplicity.
PROCESSES FOR PREPARING RALTEGRAVIR AND INTERMEDIATES IN THE PROCESSES
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Page/Page column 10-11, (2012/08/08)
The present invention provides a process for preparing benzyl-2-(4-(4- fluorobenzylcarbamoyl)-5-hydroxy-1-methyl-6-oxo-1,6-dihydropyrimidin-2-yl)propan-2- ylcarbamate (RLT-8), a process for preparing Raltegravir via RLT-8, a process for preparing methyl 2-(2-(benzyloxycarbonylamino)propan-2-yl)-5 -hydroxy-1-methyl-6- oxo-1,6-dihydropyrimidine-4-carboxylate (RLT-7'), a process for preparing Raltegravir via RLT-7', and a process for preparing crystalline form V of Raltegravir potassium.
Development of a second-generation, highly efficient manufacturing route for the HIV integrase inhibitor raltegravir potassium
Humphrey, Guy R.,Pye, Philip J.,Zhong, Yong-Li,Angelaud, Remy,Belyk, Kevin M.,Maligres, Peter E.,Miller, Ross A.,Reamer, Robert A.,Askin, David,Mancheno, Danny E.,Weissman, Steven A.
, p. 73 - 83 (2011/09/16)
A manufacturing route for the synthesis of raltegravir potassium 1 was developed via a thermal rearrangement of amidoxime DMAD adducts 6 to construct the key, highly functionalized hydroxypyrimidinone core 7. Utilizing this route 1 was prepared in nine linear chemical steps with 22% overall yield. A second-generation synthesis was subsequently developed that solved the key chemical, productivity, and environmental impact issues of the initial synthesis. Highlights of the new synthesis include a highly selective methylation, 3-4-fold higher productivity, and a 65% reduction of combined organic and aqueous waste produced. The efficient second-generation manufacturing route provides raltegravir potassium 1 in 35% overall yield.