The serine/threonine kinase p38 is a ubiquitous, highly conserved, stress responsive, signal-transducing enzyme. It regulates the production of proinflammatory mediators and is the target of the cytokine synthesis inhibitory pyridinylimidazoles. We have expressed human p38 in Drosophila S2 cells and characterized preparations of mixed unphosphorylated/monophosphorylated (inactive) and homogeneously diphosphorylated (active) forms of the enzyme. We observed that only the active preparation of the enzyme has significant kinase activity when assayed using an ATF2-GST fusion protein as the substrate. We determined that the value of KM[ATP] in this reaction is 25 microM and that the pyridinylimidazole inhibitor of p38 kinase activity, SB203580, competes with ATP. We have found that a tritiated pyridinylimidazole, SB202190, has an equal affinity for both the active and inactive forms of the enzyme and that SB203580 competes with it equally well for binding to either form of the enzyme. However, ATP can compete with the tritiated inhibitor for binding to only the active form of the enzyme. Further, we demonstrate in vivo that at concentrations consistent with its IC50 as a cytokine inhibitor, SB203580 can inhibit stimulus-induced phosphorylation of p38 at the Thr-Gly-Tyr activation motif. Our observations suggest that pyridinylimidazoles may block the biological activity of p38 kinase by binding to the inactive form of p38 and reducing its rate of activation. Under these conditions, ATP would not effectively compete with the inhibitors in vivo.
Thiostrepton is a highly modified multicyclic peptide antibiotic synthesized by diverse bacteria. Although best known as an inhibitor of protein synthesis, thiostrepton is also a potent activator of gene expression in Streptomyces lividans. In these studies, we characterize the nature of the interaction between thiostrepton and two proteins that it induces, TipAL and TipAS. In the absence of added cofactors, thiostrepton formed a complex with either TipAL or TipAS in aqueous solution. The TipA-thiostrepton complex was not dissociated by denaturants such as SDS, urea, or disulfide reducing agents. The mass of the TipAS-thiostrepton complex as determined by both sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and mass spectrometry (MS) was equivalent to the sum of TipAS and thiostrepton. Thiostrepton also reacted spontaneously with free cysteine (but not with other amino acids tested) to generate stable compounds having masses equivalent to thiostrepton plus 3 to 4 cysteines. Blocking experiments indicated that complex formation required dehydroalanine residues on thiostrepton and cysteine residues on TipAS. When the TipAS-thiostrepton complex was digested with trypsin and analyzed by MS, the thiostrepton adduct was found bound only to the unique cysteine-containing TipAS peptide fragment. Amino acid analysis confirmed that the TipAS-thiostrepton complex contained lanthionine, the product of a reaction between dehydroalanine and cysteine. Together, these data document a covalent attachment of thiostrepton to TipA proteins mediated by bond formation between dehydroalanine of thiostrepton and cysteine of TipAS. Implications regarding the function of TipAS as a thiostrepton (electrophile)-sequestering protein and thiostrepton-mediated activation of TipAL as a model of irreversible transcriptional activation are discussed.
Methodology was developed to afford rapid characterization of multicomponent mixtures of small organic molecules prepared by split-and-mix combinatorial synthesis. This methodology involved the use of liquid chromatography mass spectrometry (LC/MS) combined with correlation analysis of measured versus predicted electrospray ionization mass spectra. Low-resolution mass spectra of complex mixtures revealed predictable patterns that confirm library products, assisted in identifying chemical synthesis errors, and assessed overall library integrity. In general, equal signal intensities were observed for most combinatorial mixture components, indicating that differences in electrospray ionization efficiency was not a major limitation to this approach. High-throughput data processing programs and informatics tools were used to speed data analysis and to simplify the presentation of the library characterization results. This approach has been used to characterize combinatorial libraries that were synthesized for a variety of drug-discovery programs. Examples are shown for library formats of 1, 40, 66, 280, and 400 component(s)/well. The applicability of this approach to large combinatorial mixtures should allow direct characterization of massive combinatorial libraries.
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