Cell-permeant caged InsP3 ester shows that Ca2+ spike frequency can optimize gene expression (original) (raw)
References
Berridge, M. J. Inositol triphosphate and calcium signalling. Nature361, 315–325 (1993). ArticleADSCAS Google Scholar
Tsien, R. W. & Tsien, R. Y. Calcium channels, stores, and oscillations. Annu. Rev. Cell Biol.6, 715–760 (1990). ArticleCAS Google Scholar
Jacob. R. Calcium oscillations in electrically nonexcitable cells. Biochim. Biophys. Acta1052, 427–438 (1900). Article Google Scholar
Fewtrell, C. Ca2+ oscillations in non-excitable cells. Annu. Rev. Physiol.55, 427–454 (1993). ArticleCAS Google Scholar
Potter, B. V. L. & Lampe, D. Chemistry of inositol lipid mediated cellular signaling. Angew. Chemie Int. Edn Engl.34, 1933–1972 (1995). ArticleCAS Google Scholar
Crabtree, G. R. & Clipstone, N. A. Signal transmission between the plasma membrane and nucleus of T lymphocytes. Annu. Rev. Biochem.63, 1045–1083 (1994). ArticleCAS Google Scholar
Hutchinson, L. E. & McCloskey, M. A. FcεRI-mediated induction of nuclear factor of activated T-cells. J. Biol. Chem.270, 16333–16338 (1995). ArticleCAS Google Scholar
Dolmetsch, R. E., Xu, K. & Lewis, R. S. Calcium oscillations increase the efficacy and specificity of gene expression. Nature392, 933–936 (1998). ArticleADSCAS Google Scholar
Hirata, M. et al. Stereospecific recognition of inositol 1,4,5-triphosphate analogs by the phosphatase, kinase, and binding proteins. J. Biol. Chem.265, 8404–8407 (1990). CASPubMed Google Scholar
Hirata, M., Watanabe, Y., Yoshida, M., Koga, T. & Ozaki, S. Roles for hydroxyl groups of D-myo-inositol 1,4,5-triphosphate in the recognition by its receptor and metabolic enzymes. J. Biol. Chem.268, 19260–19266 (1993). CASPubMed Google Scholar
Kozikowski, A. P., Ognyanov, V. I., Fauq, A. H., Nahorski, S. R. & Wilcox, R. A. Synthesis of 1D-3-deoxy-, 1D-2,3-dideoxy-, and 1D-2,3,6-trideoxy-_myo_-inositol 1,4,5-trisphosphate from quebrachitol, their binding affinities, and calcium release activity. J. Am. Chem. Soc.115, 4429–4434 (1993). ArticleCAS Google Scholar
Li, W.-h., Schultz, C., Llopis, J. & Tsien, R. Y. Membrane-permeant esters of inositol polyphosphates, chemical synthesis and biological applications. Tetrahedron53, 12017–12040 (1997). ArticleCAS Google Scholar
Adams, S. R. & Tsien, R. Y. Controlling cell chemistry with caged compounds. Annu. Rev. Physiol.55, 755–784 (1993). ArticleCAS Google Scholar
Walker, J. W., Feeney, J. & Trentham, D. R. Photolabile precursors of inositol phosphates. Preparation and properties of 1-(2-nitrophenyl)ethyl esters of _myo_-inositol 1,4,5-trisphosphate. Biochemistry28, 3272–3280 (1989). ArticleCAS Google Scholar
Kao, J. P. Y., Harootunian, A. T. & Tsien, R. Y. Photochemically generated cytosolic calcium pulses and their detection by fluo-3. J. Biol. Chem.264, 8179–8184 (1989). CASPubMed Google Scholar
Zlokarnik, G. et al. Quantitation of transcription and clonal selection of single living cells with β-lactamase as reporter. Science279, 84–88 (1998). ArticleADSCAS Google Scholar
Kuchtey, J. & Fewtrell, C. Subcloning of RBL-2H3 mucosal mast cell line reduces Ca2+ response heterogeneity as the single-cell level. J. Cell. Physiol.166, 643–652 (1996). ArticleCAS Google Scholar
Smith, G. D., Lee, R. J., Oliver, J. M. & Keizer, J. Effect of Ca2+ influx on intracellular free Ca2+ responses in antigen-stimulated RBL-2H3 cells. Am. J. Physiol.270, C939–C952 (1996). ArticleCAS Google Scholar
Timmerman, L. A., Clipstone, N. A., Ho, S. N., Northrop, J. P. & Crabtree, G. R. Rapid shuttling of NF-AT in discrimination of Ca2+ signals and immunosuppression. Nature383, 837–840 (1996). ArticleADSCAS Google Scholar
Dolmetsch, R. E., Lewis, R. S., Goodnow, C. G. & Healy, J. I. Differential activation of transcription factors induced by Ca2+ response amplitude and duration. Nature386, 855–858 (1997). ArticleADSCAS Google Scholar
Hajnóczky, G. & Thomas, A. P. The inositol trisphosphate calcium channel is inactivated by inositol trisphosphate. Nature370, 474–477 (1994). ArticleADS Google Scholar
Oancea, E. & Meyer, T. Reversible desensitization of inositol trisphosphate-induced calcium release provides a mechanism for repetitive calcium spikes. J. Biol. Chem.271 17253–17260 (1996). ArticleCAS Google Scholar
Gu, X. & Spitzer, N. C. Distinct aspects of neuronal differentiation encoded by frequency of spontaneous Ca2+ transients. Nature375, 784–787 (1995). ArticleADSCAS Google Scholar
Hatchard, C. G. & Parker, C. A. Anew sensitive chemical actinometer. II. Potassium ferrioxalate as a standard chemical actinometer. Proc. R. Soc. Lond. A235, 518–536 (1956). ArticleADSCAS Google Scholar
Fiering, S. et al. Single cell assay of a transcription factor reveals a threshold in transcription activated by signals emanating from the T-cell antigen receptor. Genes Dev.4, 1823–1834 (1990). ArticleCAS Google Scholar
Vacca, J. P. et al. The total synthesis of myo-inositol polyphosphates. Tetrahedron45, 5679–5702 (1989). ArticleCAS Google Scholar