Synthesis of an Atropisomeric HIV Integrase Inhibitor

Philip Kocienski

doi:10.1055/s-0036-1589742

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Synfacts 2017; 13(01): 0001
DOI: 10.1055/s-0036-1589742

Synthesis of Natural Products and Potential Drugs

Synthesis of an Atropisomeric HIV Integrase Inhibitor

Contributor(s):

Philip Kocienski

Kuethe JT, * Humphrey GR, Journet M, Peng Z, Childers KG. Merck & Co., Rahway, USA
Asymmetric Synthesis of a Potent HIV-1 Integrase Inhibitor.

J. Org. Chem. 2016;
81: 10256-10265

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Publication History

Publication Date:
19 December 2016 (online)

Abstract
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Key words

HIV-1 integrase inhibitor - N-alkylation - atropisomer

Significance

The first-generation synthesis of HIV-1 integrase inhibitor N proceeded in ten steps and 14% overall yield on a multikilogram scale from unsaturated sulfoxide A. The second-generation synthesis depicted also proceeded in ten steps, but in an improved 28% overall yield. Both routes share a common intermediate (G) and feature the construction of the challenging eight-membered ring via an intramolecular N-alkylation that does not require isolation of any intermediates.

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Comment

Compounds M and N displayed hindered rotation about the amide bond that permitted separation of the atropisomers. In ethanol, pure atropisomer M equilibrates to an 85:15 mixture of atropisomers after stirring for eight days at room temperature. The minor undesired atropisomer (aS,4R)-N displays less antiviral activity and had a markedly different pharmacokinetic profile from (aR,4R)-N. The stereochemistry of the atropisomers was determined by calculation.

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