Chapter 1
References
Ahmad, N. N., Pfalzer, A., & Kaplan, L. M. (2013). Roux-en-Y gastric bypass normalizes the blunted postprandial bile acid excursion associated with obesity. International Journal of Obesity, 37(12), 1553–1559.
Angelin, B., & Bjorkhem, I. (1977). Postprandial serum bile acids in healthy man: evidence for differences in absorptive pattern between individual bile acids. Gut, 18(8), 606–609.
Brufau, G., Stellaard, F., Prado, K., Bloks, Jonkers, E., Boverhof, R., Kuipers, F., & Murphy, E. J. E. J. (2010). Improved glycemic control with colesevelam treatment in patients with type 2 diabetes is not directly associated with changes in bile acid metabolism. Hepatology, 52(4), 1455–1464.
Haeusler, R. A., Astiarraga, B., Camastra, S., Accili, D., & Ferrannini, E. (2013). Human insulin resistance is associated with increased plasma levels of 12α-hydroxylated bile acids. Diabetes, 62(12), 4184–4191.
Haeusler, R. A., Camastra, S., Nannipieri, M., Astiarraga, B., Castro-Perez, J., Xie, D., Wang, L., Chakravarthy, M., & Ferrannini, E. (2016). Increased bile acid synthesis and impaired bile acid transport in human obesity. The Journal of Clinical Endocrinology & Metabolism, 101(5), 1935–1944.
Haeusler, R. A., Pratt-Hyatt, M., Welch, C. L., Klaassen, C. D., & Accili, D. (2012). Impaired generation of 12-hydroxylated bile acids links hepatic insulin signaling with dyslipidemia. Cell Metabolism, 15(1), 65–74.
Hardison, W. G. M., & Grundy, S. M. (1983). Effect of bile acid conjugation pattern on bile acid metabolism in normal humans. Gastroenterology, 84(3), 617–620.
Hofmann, A. F., & Hagey, L. R. (2008). Bile acids: Chemistry, pathochemistry, biology, pathobiology, and therapeutics. In Cellular and Molecular Life Sciences (Vol. 65, Issue 16, pp. 2461–2483).
Ichikawa, R., Takayama, T., Yoneno, K., Kamada, N., Kitazume, M. T., Higuchi, H., Matsuoka, K., Watanabe, M., Itoh, H., Kanai, T., Hisamatsu, T., & Hibi, T. (2012). Bile acids induce monocyte differentiation toward interleukin-12 hypo-producing dendritic cells via a TGR5-dependent pathway. Immunology, 136(2), 153–162.
Jørgensen, N. B., Dirksen, C., Bojsen-Møller, K. N., Kristiansen, V. B., Wulff, B. S., Rainteau, D., Humbert, L., Rehfeld, J. F., Holst, J. J., Madsbad, S., & Clausen, T. R. (2015). Improvements in glucose metabolism early after gastric bypass surgery are not explained by increases in total bile acids and fibroblast growth factor 19 concentrations. Journal of Clinical Endocrinology and Metabolism, 100(3), E396–E406.
Katsuma, S., Hirasawa, A., & Tsujimoto, G. (2005). Bile acids promote glucagon-like peptide-1 secretion through TGR5 in a murine enteroendocrine cell line STC-1. Biochemical and Biophysical Research Communications, 329(1), 386–390.
Kawamata, Y., Fujii, R., Hosoya, M., Harada, M., Yoshida, H., Miwa, M., Fukusumi, S., Habata, Y., Itoh, T., Shintani, Y., Hinuma, S., Fujisawa, Y., & Fujino, M. (2003). A G protein-coupled receptor responsive to bile acids. The Journal of Biological Chemistry, 278(11), 9435–9440.
Keitel, V., Donner, M., Winandy, S., Kubitz, R., & Häussinger, D. (2008). Expression and function of the bile acid receptor TGR5 in Kupffer cells. Biochemical and Biophysical Research Communications, 372(1), 78–84.
Kir, S., Beddow, S. A., Samuel, V. T., Miller, P., Previs, S. F., Suino-Powell, K., Xu, H. E., Shulman, G. I., Kliewer, S. A., & Mangelsdorf, D. J. (2011). FGF19 as a Postprandial, Insulin-independent Activator of Hepatic Protein and Glycogen Synthesis. Science, 331(6024), 1621–1624.
Kumar, D. P., Rajagopal, S., Mahavadi, S., Mirshahi, F., Grider, J. R., Murthy, K. S., & Sanyal, A. J. (2012). Activation of transmembrane bile acid receptor TGR5 stimulates insulin secretion in pancreatic β cells. Biochemical and Biophysical Research Communications, 427(3), 600–605.
LaRusso, N. F., Hoffman, N. E., Korman, M. G., Hofmann, A. F., & Cowen, A. E. (1978). Determinants of fasting and postprandial serum bile acid levels in healthy man. The American Journal of Digestive Diseases, 23(5), 385–391.
LaRusso, N., Korman, M., Hoffman, N., & Hofmann, A. F. (1974). Dynamics of the enterohepatic circulation of bile acids. Postprandial serum concentrations of conjugates of cholic acid in health, cholecystectomized patients, and patients with bile acid malabsorption. The New England Journal of Medicine, 291(14), 689–692.
Lefebvre, P., Cariou, B., Lien, F., Kuipers, F., & Staels, B. (2009). Role of bile acids and bile acid receptors in metabolic regulation. Physiological Reviews, 89(1), 147–191.
20