- 1) Dawson, P. A., and Oelkers, P., Bile acid transporters. Curr. Opin. Lipidol., 6, 109–114 (1995).
- 2) Hagenbuch, B., and Meier, P. J., Molecular cloning, chromosomal localization, and functional characterization of a human liver Na+/bile acid cotransporter. J. Clin. Invest., 93, 1326–1331 (1994).
- 3) Hagenbuch, B., Stieger, B., Foguet, M., Lubbert, H., and Meier, P. J., Functional expression cloning and characterization of the hepatocyte Na+/bile acid cotransport system. Proc. Natl. Acad. Sci. USA, 88, 10629–10633 (1991).
- 4) Saeki, T., Matoba, K., Furukawa, H., Kirifuji, K., Kanamoto, R., and Iwami, K., Characterization, cDNA cloning, and functional expression of mouse ileal sodium-dependent bile acid transporter. J. Biochem. (Tokyo), 125, 846–851 (1999).
- 5) Shneider, B. L., Dawson, P. A., Christie, D. M., Hardikar, W., Wong, M. H., and Suchy, F. J., Cloning and molecular characterization of the ontogeny of a rat ileal sodium-dependent bile acid transporter. J. Clin. Invest., 95, 745–754 (1995).
- 6) Jones, B. A., Rao, Y. P., Stravitz, R. T., and Gores, G. J., Bile salt-induced apoptosis of hepatocytes involves activation of protein kinase C. Am. J. Physiol., 272, G1109–1115 (1997).
- 7) Marchetti, M. C., Migliorati, G., Moraca, R., Riccardi, C., Nicoletti, I., Fabiani, R., Mastrandrea, V., and Morozzi, G., Possible mechanisms involved in apoptosis of colon tumor cell lines induced by deoxycholic acid, short-chain fatty acids, and their mixtures. Nutr. Cancer, 28, 74–80 (1997).
- 8) Reinehr, R., Graf, D., and Haussinger, D., Bile salt-induced hepatocyte apoptosis involves epidermal growth factor receptor-dependent CD95 tyrosine phosphorylation. Gastroenterology, 125, 839–853 (2003).
- 9) Schlottman, K., Wachs, F.-P., Krieg, R. C., Kullmann, F., Scholmerich, J., and Rogler, G., Characterization of bile salt-induced apoptosis in colon cancer cell lines. Cancer Res., 60, 4270–4276 (2000).
- 10) Sodeman, T., Bronk, S. F., Roberts, P. J., Miyoshi, H., and Gores, G. J., Bile salts mediate hepatocyte apoptosis by increasing cell surface trafficking of Fas. Am. J. Physiol. Gastrointest. Liver Physiol., 278, G992–999 (2000).
- 11) Graf, D., Kurz, A. K., Fischer, R., Reinehr, R., and Haussinger, D., Taurolithocholic acid-3 sulfate induces CD95 trafficking and apoptosis in a c-Jun N-terminal kinase-dependent manner. Gastroenterology, 122, 1411–1427 (2002).
- 12) Higuchi, H., and Gores, G. J., Bile acid regulation of hepatic physiology. IV. Bile acids and death receptors. Am. J. Physiol. Gastrointest. Liver Physiol., 284, G734–G738 (2003).
- 13) Higuchi, H., Yoon, J.-H., Grambihler, A., Werneburg, N., Bronk, S. F., and Gores, G. J., Bile acids stimulate cFLIP phosphorylation enhancing TRAIL-mediated apoptosis. J. Biol. Chem., 278, 454–461 (2003).
- 14) Wachs, F. P., Krieg, R. C., Rodrigues, C. M., Messmann, H., Kullmann, F., Knuchel-Clarke, R., Scholmerich, J., Rogler, G., and Schlottmann, K., Bile salt-induced apoptosis in human colon cancer cell lines involves the mitochondrial transmembrane potential but not the CD95 (Fas/Apo-1) receptor. Int. J. Colorectal. Dis., 20, 103–113 (2005).
- 15) Yui, S., Saeki, T., Kanamoto, R., and Iwami, K., Characteristics of apoptosis in HCT116 colon cancer cells induced by deoxycholic acid. J. Biochem. (Tokyo), 138, 151–157 (2005).
- 16) Saeki, T., Takahashi, N., Kanamoto, R., and Iwami, K., Characterization of cloned mouse Na+/taurocholate cotransporting polypeptide by transient expression in COS-7 cells. Biosci. Biotechnol. Biochem., 66, 1116–1118 (2002).
- 17) Roda, A., Minutello, A., Angellotti, M. A., and Fini, A., Bile acid structure-activity relationship: evaluation of bile acid lipophilicity using 1-octanol/water partition coefficient and reverse phase HPLC. J. Lipid Res., 31, 1433–1443 (1990).
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Taurocholic Acid Does Not Induce Apoptosis in HCT116 Cells Regardless of Its Intracellular Concentration
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