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The involvement of protein tyrosine kinases (PTKs) in aryl hydrocarbon receptor (AhR)-mediated signalling by omeprazole and 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) was investigated in hepatoma cells. Both omeprazole- and TCDD-dependent AhR signalling was attenuated by inhibition of c-src kinase, either by using pyrazolopyrimidine 4-amino-5-(4-methylphenyl)-7-(t-butyl)pyrazolo[3,4 ]pyrimidine (PP1) and 4-amino-5-(4-chlorophenyl)-7-(t-butyl)pyrazolo[3,4-d]pyrimidine (PP2) inhibitors or by expression of dominant-negative c-src. These results indicate that the overall AhR function is modulated by c-src kinase activity. In contrast, a selective inhibition of omeprazole-mediated AhR signalling was revealed by tyrosine kinase inhibitors, tyrphostins AG17 and AG879. Furthermore, omeprazole-dependent AhR activation was abolished by mutation of Tyr320 to Phe, suggesting that this residue is a putative phosphorylation site. TCDD-dependent AhR signalling was neither affected by tyrphostins nor by this mutation. Our results are consistent with activation of the AhR by omeprazole in a ligand-independent manner, via a signal transduction pathway that involves protein tyrosine kinases, and are different from the mechanism exerted by high-affinity ligands.
Most small cell lung cancers (SCLC) coexpress the c-kit protein tyrosine receptor kinase and its ligand stem cell factor, resulting in an autocrine loop. As SCLC growth is also driven by insulin-like growth factor-1 receptor (IGF-1R) signalling, tyrphostins AG 1024 and 1296 (inhibitors of IGF-1R and c-kit activity, respectively) were used to co-target these receptors in H 209 SCLC cells. Combination treatment caused synergy in proliferation inhibition and in apoptosis induction, and also enhanced reduction in phosphorylation of Erk1/Erk2, suggesting that co-targeting IGF-1R and c-kit in SCLC may be more effective than single-agent therapies.
A relatively high-affinity inhibitor of FIKK kinase from the malaria parasite Plasmodium vivax was identified by in vitro assay of recombinant kinase. The FIKK kinase family is unique to parasitic organisms of the Apicomplexan order and has been shown to be critical in malaria parasites. The recombinant kinase domain was expressed and screened against a small molecule library, revealing a number of tyrosine kinase inhibitors that block FIKK kinase activity. A family of tyrphostins was further investigated, to begin exploring the FIKK kinase pharmacophore. Finally, emodin was identified as a relatively high-affinity FIKK kinase inhibitor, identifying this family of anthraquinones as potential lead compounds for the development of antimalarials targeting the FIKK kinase.
Gap junctions mediate cell-cell communication in almost all tissues, but little is known about their regulation by physiological stimuli. Using a novel single-electrode technique, together with dye coupling studies, we show that in cells expressing gap junction protein connexin43, cell-cell communication is rapidly disrupted by G protein-coupled receptor agonists, notably lysophosphatidic acid, thrombin, and neuropeptides. In the continuous presence of agonist, junctional communication fully recovers within 1-2 h of receptor stimulation. In contrast, a desensitization-defective G protein-coupled receptor mediates prolonged uncoupling, indicating that recovery of communication is controlled, at least in part, by receptor desensitization. Agonist-induced gap junction closure consistently follows inositol lipid breakdown and membrane depolarization and coincides with Rho-mediated cytoskeletal remodeling. However, we find that gap junction closure is independent of Ca2+, protein kinase C, mitogen-activated protein kinase, or membrane potential, and requires neither Rho nor Ras activation. Gap junction closure is prevented by tyrphostins, by dominant-negative c-Src, and in Src-deficient cells. Thus, G protein-coupled receptors use a Src tyrosine kinase pathway to transiently inhibit connexin43-based cell-cell communication.
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