Discovery of a Potent and Selective Naphthyridine-Based Chemical Probe for Casein Kinase 2.
Zachary W Davis-GilbertAndreas KrämerJames E DunfordStefanie HowellFiliz SenbabaogluCarrow I WellsFrances M BashoreTammy M HavenerJeffery L SmithMohammad Anwar HossainUdo OppermannDavid Harold DrewryAlison D AxtmanPublished in: ACS medicinal chemistry letters (2023)
Naphthyridine-based inhibitors were synthesized to yield a potent and cell-active inhibitor of casein kinase 2 (CK2). Compound 2 selectively inhibits CK2α and CK2α' when profiled broadly, thereby making it an exquisitely selective chemical probe for CK2. A negative control that is structurally related but lacks a key hinge-binding nitrogen ( 7 ) was designed on the basis of structural studies. Compound 7 does not bind CK2α or CK2α' in cells and demonstrates excellent kinome-wide selectivity. Differential anticancer activity was observed when compound 2 was profiled alongside a structurally distinct CK2 chemical probe: SGC-CK2-1. This naphthyridine-based chemical probe ( 2 ) represents one of the best available small molecule tools with which to interrogate biology mediated by CK2.