Abstract
Bisindolylmaleimide compounds such as GF109203X are potent inhibitors of protein kinase C (PKC) activity. Although bisindolylmaleimides are not entirely selective for PKC and are known to inhibit a few other protein kinases, these reagents have been extensively used to study the functional roles of PKC family enzymes in cellular signal transduction for more than a decade. Here, we establish a proteomics approach to gain further insights into the cellular effects of this compound class. Functional immobilization of suitable bisindolylmaleimide analogues in combination with the specific purification of cellular binding proteins by affinity chromatography led to the identification of several known and previously unknown enzyme targets. Subsequent in vitro binding and activity assays confirmed the protein kinases Ste20-related kinase and cyclin-dependent kinase 2 (CDK2) and the non-protein kinases adenosine kinase and quinone reductase type 2 as novel targets of bisindolylmaleimide inhibitors. As observed specifically for CDK2, minor chemical variation of the ligand by immobilizing the closely related bisindolylmaleimides III, VIII, and X dramatically affected target binding. These observed changes in affinity correlated with both the measured IC(50) values for in vitro CDK2 inhibition and results from molecular docking into the CDK2 crystal structure. Moreover, the conditions for affinity purification could be adapted in a way that immobilized bisindolylmaleimide III selectively interacted with either PKC alpha or ribosomal S6 protein kinase 1 only after activation of these kinases. Thus, we have established an efficient technique for the rapid identification of cellular bisindolylmaleimide targets and further demonstrate the comparative selectivity profiling of closely related kinase inhibitors within a cellular proteome.
Highlights
Bisindolylmaleimide compounds such as GF109203X are potent inhibitors of protein kinase C (PKC) activity
The protein kinase C (PKC)1 family of serine/threonine kinases comprises at least 11 isozymes, which can be divided into three subgroups based on biochemical criteria such as differential co-factor requirements
PKC Inhibitor Targets bisindolylmaleimide derivatives blocked the activities of the ribosomal S6 protein kinase 2 (Rsk2) and its close relative mitogen and stress-activated protein kinase 1 as potently as PKC␣ in vitro
Summary
Reagents and Plasmids—Cell culture media and LipofectAMINE were purchased from Invitrogen (San Diego, CA). When the stimulation-dependent binding of Rsk to BisIII beads was analyzed, CaCl2 and the co-factors were omitted from the lysis and wash buffers and the NaCl concentration was kept at 150 mM. Ki Determination of BisIII for the Human Oxidoreductase NQO2— Enzyme activity and inhibition were determined spectrophotometrically (Spectramax Plus 384; Molecular Devices) by measuring the reduction of MTT at 610 nm and 30 °C In this assay, we used NADH as an electron donor for the menadion reduction and MTT for the continuous re-oxidation of menadiol. Immunoprecipitated SLK bound to 15 l of drained beads was mixed with 35 l of kinase buffer containing the indicated BisIII concentrations and incubated for 10 min at 4 °C. 100 ng of CDK2/CyclinA and BisIII, BisVIII, and BisX concentration as indicated were pre-incubated in kinase buffer for 10 min at 4 °C. All poses were rescored with the empirical scoring function X-score (sw16.im.med.umich.edu/software/xtool/manual/)
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