Sulfonamides as Selective NaV1.7 Inhibitors: Optimizing Potency, Pharmacokinetics, and Metabolic Properties to Obtain Atropisomeric Quinolinone (AM-0466) that Affords Robust in Vivo Activity
Because of its strong genetic validation, NaV1.7 has attracted significant interest as a target for the treatment of pain. We have previously reported on a number of structurally distinct bicyclic heteroarylsulfonamides as NaV1.7 inhibitors that demonstrate high levels of selectivity over other NaV...
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| Veröffentlicht in: | Journal of medicinal chemistry 2017-07, Vol.60 (14), p.5990-6017 |
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| creator | Graceffa, Russell F Boezio, Alessandro A Able, Jessica Altmann, Steven Berry, Loren M Boezio, Christiane Butler, John R Chu-Moyer, Margaret Cooke, Melanie DiMauro, Erin F Dineen, Thomas A Feric Bojic, Elma Foti, Robert S Fremeau, Robert T Guzman-Perez, Angel Gao, Hua Gunaydin, Hakan Huang, Hongbing Huang, Liyue Ilch, Christopher Jarosh, Michael Kornecook, Thomas Kreiman, Charles R La, Daniel S Ligutti, Joseph Milgram, Benjamin C Lin, Min-Hwa Jasmine Marx, Isaac E Nguyen, Hanh N Peterson, Emily A Rescourio, Gwen Roberts, John Schenkel, Laurie Shimanovich, Roman Sparling, Brian A Stellwagen, John Taborn, Kristin Vaida, Karina R Wang, Jean Yeoman, John Yu, Violeta Zhu, Dawn Moyer, Bryan D Weiss, Matthew M |
| description | Because of its strong genetic validation, NaV1.7 has attracted significant interest as a target for the treatment of pain. We have previously reported on a number of structurally distinct bicyclic heteroarylsulfonamides as NaV1.7 inhibitors that demonstrate high levels of selectivity over other NaV isoforms. Herein, we report the discovery and optimization of a series of atropisomeric quinolinone sulfonamide inhibitors [ Bicyclic sulfonamide compounds as sodium channel inhibitors and their preparation. WO 2014201206, 2014 ] of NaV1.7, which demonstrate nanomolar inhibition of NaV1.7 and exhibit high levels of selectivity over other sodium channel isoforms. After optimization of metabolic and pharmacokinetic properties, including PXR activation, CYP2C9 inhibition, and CYP3A4 TDI, several compounds were advanced into in vivo target engagement and efficacy models. When tested in mice, compound 39 (AM-0466) demonstrated robust pharmacodynamic activity in a NaV1.7-dependent model of histamine-induced pruritus (itch) and additionally in a capsaicin-induced nociception model of pain without any confounding effect in open-field activity. |
| doi_str_mv | 10.1021/acs.jmedchem.6b01850 |
| format | Article |
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| title | Sulfonamides as Selective NaV1.7 Inhibitors: Optimizing Potency, Pharmacokinetics, and Metabolic Properties to Obtain Atropisomeric Quinolinone (AM-0466) that Affords Robust in Vivo Activity |
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