Discovery and optimization of 2-pyridinone aminal integrase strand transfer inhibitors for the treatment of HIV

[Display omitted] HIV integrase strand transfer inhibitors (InSTIs) represent an important class of antiviral therapeutics with proven efficacy and excellent tolerability for the treatment of HIV infections. In 2007, Raltegravir became the first marketed strand transfer inhibitor pioneering the way...

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Published in:Bioorganic & medicinal chemistry letters 2017-05, Vol.27 (9), p.2038-2046
Main Authors: Schreier, John D., Embrey, Mark W., Raheem, Izzat T., Barbe, Guillaume, Campeau, Louis-Charles, Dubost, David, McCabe Dunn, Jamie, Grobler, Jay, Hartingh, Timothy J., Hazuda, Daria J., Klein, Daniel, Miller, Michael D., Moore, Keith P., Nguyen, Natalie, Pajkovic, Natasa, Powell, David A., Rada, Vanessa, Sanders, John M., Sisko, John, Steele, Thomas G., Wai, John, Walji, Abbas, Xu, Min, Coleman, Paul J.
Format: Article
Language:English
Subjects:
2-pyridinone aminal
Animals
Dogs
HIV Infections - drug therapy
HIV Integrase
HIV Integrase - metabolism
HIV Integrase Inhibitors - chemistry
HIV Integrase Inhibitors - pharmacokinetics
HIV Integrase Inhibitors - pharmacology
HIV-1 - drug effects
HIV-1 - enzymology
Humans
Molecular Docking Simulation
Pyridones - chemistry
Pyridones - pharmacokinetics
Pyridones - pharmacology
Structure activity relationship
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Summary:[Display omitted] HIV integrase strand transfer inhibitors (InSTIs) represent an important class of antiviral therapeutics with proven efficacy and excellent tolerability for the treatment of HIV infections. In 2007, Raltegravir became the first marketed strand transfer inhibitor pioneering the way to a first-line therapy for treatment-naïve patients. Challenges with this class of therapeutics remain, including frequency of the dosing regimen and the genetic barrier to resistance. To address these issues, research towards next-generation integrase inhibitors has focused on imparting potency against RAL-resistent mutants and improving pharmacokinetic profiles. Herein, we detail medicinal chemistry efforts on a novel class of 2-pyridinone aminal InSTIs, inpsired by MK-0536, which led to the discovery of important lead molecules for our program. Systematic optimization carried out at the amide and aminal positions on the periphery of the core provided the necessary balance of antiviral activity and physiochemical properties. These efforts led to a novel aminal lead compound with the desired virological profile and preclinical pharmacokinetic profile to support a once-daily human dose prediction.
ISSN:0960-894X
1464-3405
DOI:10.1016/j.bmcl.2017.02.039