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Strategic Fluorination to Achieve a Potent, Selective, Metabolically Stable, and Orally Bioavailable Inhibitor of CSNK2.

Han Wee OngXuan YangJeffery L SmithSharon Taft-BenzStefanie HowellRebekah J DickmanderTammy M HavenerMarcia K SandersJason W BrownRafael Miguez CouñagoEdcon ChangAndreas KrämerNathaniel J MoormanMark HeiseAlison D AxtmanDavid Harold DrewryTimothy M Willson
Published in: Molecules (Basel, Switzerland) (2024)
The host kinase casein kinase 2 (CSNK2) has been proposed to be an antiviral target against β-coronaviral infection. To pharmacologically validate CSNK2 as a drug target in vivo, potent and selective CSNK2 inhibitors with good pharmacokinetic properties are required. Inhibitors based on the pyrazolo[1,5- a ]pyrimidine scaffold possess outstanding potency and selectivity for CSNK2, but bioavailability and metabolic stability are often challenging. By strategically installing a fluorine atom on an electron-rich phenyl ring of a previously characterized inhibitor 1 , we discovered compound 2 as a promising lead compound with improved in vivo metabolic stability. Compound 2 maintained excellent cellular potency against CSNK2, submicromolar antiviral potency, and favorable solubility, and was remarkably selective for CSNK2 when screened against 192 kinases across the human kinome. We additionally present a co-crystal structure to support its on-target binding mode. In vivo, compound 2 was orally bioavailable, and demonstrated modest and transient inhibition of CSNK2, although antiviral activity was not observed, possibly attributed to its lack of prolonged CSNK2 inhibition.
Keyphrases
  • crystal structure
  • tyrosine kinase
  • protein kinase
  • pet ct
  • pet imaging
  • tissue engineering
  • electron transfer
  • adverse drug