HepG2. A human hepatoblastoma cell line exhibiting defects in bile acid synthesis and conjugation.

We used capillary gas chromatography/mass spectrometry to demonstrate that a cell line derived from a well differentiated human hepatoblastoma, HepG2, synthesized and secreted the following bile acids (ng/10(7) cells/h): chenodeoxycholic acid (131.4), cholic acid (3.3), 3 alpha, 7 alpha-dihydroxy-5 beta-cholestan-26-oic acid (DHCA; 4.5), and 3 alpha, 7 alpha, 12 alpha-trihydroxy-5 beta-cholestan-26-oic acid (THCA; 32.0). Deuterium from [7 beta-2H]7 alpha-hydroxycholesterol, which was added to the media, was incorporated into newly synthesized chenodeoxycholic acid, DHCA, and THCA, but not into cholic acid. Since THCA is a known precursor of cholic acid, these data suggest that HepG2 is specifically deficient in the side chain cleavage that transforms THCA into cholic acid. Greater than 90% of the bile acids synthesized and secreted by HepG2 were unconjugated. Conjugation could not be stimulated by the addition of glycine or taurine to the media. Approximately 30% of newly synthesized DHCA and THCA were sulfated. Chenodeoxycholic acid and cholic acid were not appreciably sulfated. In summary, cultured HepG2 cells synthesize bile acid, but in a pattern distinct from that of adult human liver. This cell line may be a model for studying pathways of human bile acid synthesis, conjugation, and sulfation.