Bile acid-induced apoptosis in hepatocytes is caspase-6-dependent.

Apoptosis induced by hydrophobic bile acids is thought to contribute to liver injury during cholestasis. Caspase-6 is an executioner caspase that also appears to have regulatory functions in hematopoetic cell lines. We aimed to elucidate the role of caspase-6 in bile acid-induced apoptosis. The major human hydrophobic bile acid, glycochenodeoxycholic acid (GCDCA, 75 micromol/liter), rapidly induced caspase-6 cleavage in HepG2-Ntcp human hepatoma cells. GCDCA-induced, but not tumor necrosis factor alpha- or etoposide-induced activation of effector caspases-3 and -7 was significantly reduced by 50% in caspase-6-deficient HepG2-Ntcp cells as well as in primary rat hepatocytes pretreated with a caspase-6 inhibitor. Inhibition of caspase-9 reduced GCDCA-induced activation of caspase-6, whereas inhibition of caspase-6 reduced activation of caspase-8 placing caspase-6 between caspase-9 and caspase-8. GCDCA also induced apoptosis in Fas-deficient Hep3B-Ntcp and HuH7-Ntcp hepatoma cells. In addition, GCDCA-induced apoptosis was reduced by 50% in FADD-deficient HepG2-Ntcp cells, whereas apoptosis induced by tumor necrosis factor alpha was reduced by 90%. Collectively, these observations suggest that GCDCA can induce hepatocyte apoptosis in the absence of death receptor signaling, presumably by a compensatory mitochondrial pathway. In conclusion, caspase-6 appears to play an important regulatory role in the promotion of bile acid-induced apoptosis as part of a feedback loop.

The human transcription factor AP-1 is a mediator of bile acid-induced liver cell apoptosis.

Apoptosis induced by toxic bile acids is thought to contribute to liver injury during cholestasis. The transcription factor AP-1 is involved in the induction of apoptosis depending on stimulus and cell type. It is not known whether the major human toxic bile acid, glycochenodeoxycholic acid (GCDCA), modulates AP-1 in hepatocytes. Our data show that GCDCA (75 microM, 4 h) significantly upregulates cFos and JunB as demonstrated by microarray analysis and real-time PCR in HepG2-Ntcp hepatoma cells. GCDCA (75 microM, 4 h) also induced AP-1 activation as determined by EMSA that was most distinct after 30 min. In parallel, AP-1 transcriptional activity increased by 40% after exposure to GCDCA. Curcumin, an AP-1 inhibitor, dose-dependently reduced (1-25 microM) or completely abolished (50 microM) the apoptotic effect of GCDCA. Thus, GCDCA-induced upregulation of AP-1-dependent genes appears important for the cytotoxicity of this bile acid.