A multifunctional catalyst that stereoselectively assembles prodrugs

A multifunctional catalyst that stereoselectively assembles prodrugs

The catalytic stereoselective synthesis of compounds with chiral phosphorus centers remains an unsolved problem. State-of-the-art methods rely on resolution or stoichiometric chiral auxiliaries. Phosphoramidate prodrugs are a critical component of pronucleotide (ProTide) therapies used in the treatm...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2017-04, Vol.356 (6336), p.426-430
Hauptverfasser: DiRocco, Daniel A., Ji, Yining, Sherer, Edward C., Klapars, Artis, Reibarkh, Mikhail, Dropinski, James, Mathew, Rose, Maligres, Peter, Hyde, Alan M., Limanto, John, Brunskill, Andrew, Ruck, Rebecca T., Campeau, Louis-Charles, Davies, Ian W.
Format: Artikel
Sprache:eng
Schlagworte:
Amides - chemical synthesis
Antineoplastic Agents - chemical synthesis
Antiviral Agents - chemical synthesis
Cancer
Catalysis
Catalysts
Chemical compounds
Chemical synthesis
Computer applications
Computer Simulation
Critical components
Drugs
Mathematical models
Nucleoside analogs
Nucleosides
Nucleosides - chemical synthesis
Phosphates
Phosphoric Acids - chemical synthesis
Phosphorus
Prodrugs
Prodrugs - chemical synthesis
Selectivity
Stereoisomerism
Stereoselectivity
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Beschreibung
Zusammenfassung:The catalytic stereoselective synthesis of compounds with chiral phosphorus centers remains an unsolved problem. State-of-the-art methods rely on resolution or stoichiometric chiral auxiliaries. Phosphoramidate prodrugs are a critical component of pronucleotide (ProTide) therapies used in the treatment of viral disease and cancer. Here we describe the development of a catalytic stereoselective method for the installation of phosphorus-stereogenic phosphoramidates to nucleosides through a dynamic stereoselective process. Detailed mechanistic studies and computational modeling led to the rational design of a multifunctional catalyst that enables stereoselectivity as high as 99:1.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.aam7936