Towards the CSNK2 phosphoproteome - With lessons from the COVID-19 pandemic to revealing the secrets of CSNK2 and its promise as a therapeutic target.

Dramatic advances in phosphoproteomics and the development of a selective chemical probe have presented new opportunities for revealing the cellular landscape of substrates for CSNK2 (formerly known as CK2 or casein kinase II). In addition to deciphering the role(s) of CSNK2 in physiology and pathophysiology, the CSNK2 phosphoproteome offers the promise of instructing the development of CSNK2-targeted therapy.

Chemical Genetic Validation of CSNK2 Substrates Using an Inhibitor-Resistant Mutant in Combination with Triple SILAC Quantitative Phosphoproteomics.

Casein Kinase 2 (CSNK2) is an extremely pleiotropic, ubiquitously expressed protein kinase involved in the regulation of numerous key biological processes. Mapping the CSNK2-dependent phosphoproteome is necessary for better characterization of its fundamental role in cellular signalling. While ATP-competitive inhibitors have enabled the identification of many putative kinase substrates, compounds targeting the highly conserved ATP-binding pocket often exhibit off-target effects limiting their utility for definitive kinase-substrate assignment.

Development of a potent and selective chemical probe for the pleiotropic kinase CK2.

Building on the pyrazolopyrimidine CK2 (casein kinase 2) inhibitor scaffold, we designed a small targeted library. Through comprehensive evaluation of inhibitor selectivity, we identified inhibitor 24 (SGC-CK2-1) as a highly potent and cell-active CK2 chemical probe with exclusive selectivity for both human CK2 isoforms. Remarkably, despite years of research pointing to CK2 as a key driver in cancer, our chemical probe did not elicit a broad antiproliferative phenotype in >90% of >140 cell lines when tested in dose-response.