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Comparison of CX-4945 and SGC-CK2-1 as inhibitors of CSNK2 using quantitative phosphoproteomics: Triple SILAC in combination with inhibitor-resistant CSNK2

Daniel Menyhart, Laszlo Gyenis, Kristina Jurčić, Scott E. Roffey, Aakshi Puri, Predrag Jovanović, Krzysztof J. Szkop, Paula Pittock, Gilles Lajoie, Alison D. Axtman, Ola Larsson, Ivan Topisirović, David W. Litchfield

2023Current Research in Chemical Biology13 citationsDOIOpen Access PDF

Abstract

Specificity is a limiting factor when using small-molecule inhibitors to study protein kinase signalling. Since inhibitor-resistant kinase mutants (i.e., drug-resistant alleles) remain active in the presence of inhibitor, they facilitate validation of on-target effects. By combining an inhibitor-resistant kinase mutant with mass spectrometry-based phosphoproteomics, we previously devised a systematic strategy for reliable identification and validation of CSNK2 substrates. In this study, we use the same strategy to evaluate the selectivity of CX-4945, a clinical stage CSNK2 inhibitor, and SGC-CK2-1, a chemical probe selectively targeting CSNK2. Human osteosarcoma (U2OS) cells expressing exogenous wild-type CSNK2A1 (WT) or an inhibitor-resistant triple mutant (TM, V66A/H160D/I174A) were treated with CX-4945 or SGC-CK2-1 prior to analysis using triple SILAC (phospho)proteomics. The minority of phosphosites, 15% at 4 ​h and 5% at 24 ​h, that were significantly downregulated in response to CX-4945 treatment were determined to be CSNK2A1-dependent. By comparison, the majority of phosphosites, >55% at both 4 and 24 ​h, that were significantly downregulated in response to SGC-CK2-1 were identified as CSNK2A1-dependent. This indicates that SGC-CK2-1 exhibits significantly greater selectivity towards CSNK2A1 than CX-4945. Notably, utilization of SGC-CK2-1 in cells expressing CSNK2A1-TM enabled the identification of >300 CSNK2A1-dependent phosphosites. Overall, this study highlights the utility of exploiting highly selective chemical probes together with inhibitor-resistant kinase mutants to facilitate identification of bona fide kinase substrates.

Topics & Concepts

PhosphoproteomicsStable isotope labeling by amino acids in cell cultureMutantChemistryKinaseBiochemistryProteomicsProtein kinase AGeneProtein phosphorylationProtein Kinase Regulation and GTPase SignalingMelanoma and MAPK PathwaysBiochemical and Molecular Research
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