The ATP Km of IKKb for TBK1-Tide was 2 mM and the ATP Km of IKKa for FL-1. Enzyme concentrations were titrated and fixed for IKKa and for IKKb and the screen was performed as described above for TBK1 and IKKe. Importantly, few of the compounds which inhibited TBK1 or IKKe also inhibited IKKa or IKKb, The development of effective small-molecule screening technologies for kinases is dependent on appropriately purchase 146669-29-6 measuring changes in enzyme activity. While phosphorylation of a known protein substrate can be measured as a reporter for kinase activity, a peptide substrate is usually superior, as it is easier to generate large, consistent quantities, and is more amenable to the development of non-radioactive assays. However, the generation of an optimal peptide substrate requires a thorough understanding of kinase substrate specificity, and this information is only available for a small fraction of the.500 protein kinases in the human genome. The substrate specificities of three IKK family members, IKKa, IKKb and IKKe, have recently been described. Like IKKe, TBK1 is a noncanonical IKK family member which regulates Type I interferon signaling and may play a role in oncogenesis. Here, a positional scanning peptide Potassium clavulanate cellulose library technology was utilized to identify the optimal phosphorylation motif for TBK1. The substrate specificity of TBK1 is identical to that of related kinase IKKe. Interestingly, the substrate specificities of the noncanonical IKKs share overlapping characteristics with the substrate specificity of the canonical IKKs, but the optimal peptide substrates for these kinases are quite different. These data allowed the generation of a peptide substrate for TBK1 and IKKe which is amenable to high-throughput screening. This technology was then used to screen the LOPAC library and a kinase-focused library to discover in vitro inhibitors of TBK1 and IKKe. This HTS revealed that 227 compounds in this library inhibited TBK1 at a concentration of compounds inhibited IKKe, including several compounds that inhibited these enzymes at sub-micromolar concentrations. Of the compounds tested in this screen, the molecules in the LOPAC library were of particular interest since this library contains known bioactive molecules. The best TBK1/IKKe inhi
