654655-69-3Relevant articles and documents
PROCESS FOR THE PREPARATION OF BEDAQUILINE FUMARATE
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Page/Page column 10, (2020/08/22)
The present disclosure relates to an improved process for the preparation of bedaquiline fumarate, comprising a step of preparing bedaquiline by reaction of 3-benzyl-6-bromo-2-methoxyquinoline 5 with 3-(dimethylamino)-l-(naphthalen-l-yl)propan-l-one 4 in the presence of lithium pyrrolidide.
6-Cyano Analogues of Bedaquiline as Less Lipophilic and Potentially Safer Diarylquinolines for Tuberculosis
Tong, Amy S. T.,Choi, Peter J.,Blaser, Adrian,Sutherland, Hamish S.,Tsang, Sophia K. Y.,Guillemont, Jerome,Motte, Magali,Cooper, Christopher B.,Andries, Koen,Van Den Broeck, Walter,Franzblau, Scott G.,Upton, Anna M.,Denny, William A.,Palmer, Brian D.,Conole, Daniel
, p. 1019 - 1024 (2017/10/18)
Bedaquiline (1) is a new drug for tuberculosis and the first of the diarylquinoline class. It demonstrates excellent efficacy against TB but induces phospholipidosis at high doses, has a long terminal elimination half-life (due to its high lipophilicity), and exhibits potent hERG channel inhibition, resulting in clinical QTc interval prolongation. A number of structural ring A analogues of bedaquiline have been prepared and evaluated for their anti-M.tb activity (MIC90), with a view to their possible application as less lipophilic second generation compounds. It was previously observed that a range of 6-substituted analogues of 1 demonstrated a positive correlation between potency (MIC90) toward M.tb and drug lipophilicity. Contrary to this trend, we discovered, by virtue of a clogP/M.tb score, that a 6-cyano (CN) substituent provides a substantial reduction in lipophilicity with only modest effects on MIC values, suggesting this substituent as a useful tool in the search for effective and safer analogues of 1.
A method of high-efficiency production of beda quinoline
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Paragraph 0039; 0042; 0045; 0047-0049; 0051; 0054; 0057, (2017/09/26)
The invention relates to a method for high efficiency production of Bedaquiline. The method comprises that through optical resolution of 1-(6-bromo-2-methoxy-3-quinolyl)-4-dimethylamino-2-(1-naphthyl)-1-phenyl-2-butanol, Bedaquiline and other isomers are obtained, the other isomers undergo a reaction under the action of an alkali to produce key intermediate compounds A and B, and the key intermediate compounds A and B are separated and undergo a reaction to produce Bedaquiline. The method realizes high efficiency production of Bedaquiline, prevents large waste of materials, saves a cost and is suitable for large scale industrial production.