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Discovery of BMS-986202: A Clinical Tyk2 Inhibitor that Binds to Tyk2 JH2.

Chunjian LiuJames LinCharles LangevineDaniel SmithJianqing LiJohn S TokarskiJaved KhanMax RuzanovJoann StrnadAdriana Zupa-FernandezLihong ChengKathleen M GilloolyDavid ShusterYifan ZhangAnil ThankappanKim W McIntyreCharu ChaudhryPaul A ElzingaManoj ChineyAnjaneya ChimalakondaLouis J LombardoJohn E MacorPercy H CarterJames R BurkeDavid S Weinstein
Published in: Journal of medicinal chemistry (2020)
A search for structurally diversified Tyk2 JH2 ligands from 6 (BMS-986165), a pyridazine carboxamide-derived Tyk2 JH2 ligand as a clinical Tyk2 inhibitor currently in late development for the treatment of psoriasis, began with a survey of six-membered heteroaryl groups in place of the N-methyl triazolyl moiety in 6. The X-ray co-crystal structure of an early lead (12) revealed a potential new binding pocket. Exploration of the new pocket resulted in two frontrunners for a clinical candidate. The potential hydrogen bonding interaction with Thr599 in the pocket was achieved with a tertiary amide moiety, confirmed by the X-ray co-crystal structure of 29. When the diversity search was extended to nicotinamides, a single fluorine atom addition was found to significantly enhance the permeability, which directly led to the discovery of 7 (BMS-986202) as a clinical Tyk2 inhibitor that binds to Tyk2 JH2. The preclinical studies of 7, including efficacy studies in mouse models of IL-23-driven acanthosis, anti-CD40-induced colitis, and spontaneous lupus, will also be presented.
Keyphrases
  • small molecule
  • mouse model
  • magnetic resonance imaging
  • high throughput
  • computed tomography
  • risk assessment
  • disease activity
  • dual energy
  • human health
  • combination therapy
  • pet imaging
  • dna binding