Biological Actions of Bile Acids via Cell Surface Receptors.

Bile acids (BAs) are synthesized in the liver from cholesterol and are subsequently conjugated with glycine and taurine. In the intestine, bile acids undergo various modifications, such as deconjugation, dehydrogenation, oxidation, and epimerization by the gut microbiota. These bile acids are absorbed in the intestine and transported to the liver as well as the systemic circulation. BAs can activate many types of receptors, including nuclear receptors and cell surface receptors. By activating these receptors, BAs can exert various effects on the metabolic, immune, and nervous systems. Recently, the detailed structure of TGR5, the major plasma membrane receptor for BAs, was elucidated, revealing a putative second BA binding site along with the orthosteric binding site. Furthermore, BAs act as ligands for bitter taste receptors and the Leukemia inhibitory factor receptor. In addition, the Mas-related, G-protein-coupled receptor X4 interacts with receptor activity-modifying proteins. Thus, a variety of cell surface receptors are associated with BAs, and BAs are thought to have very complex activities. This review focuses on recent advances regarding cell surface receptors for bile acids and the biological actions they mediate.