Quantitative targeted bile acid profiling as new markers for DILI in a model of methapyrilene-induced liver injury in rats.

Recently, bile acids (BAs) were reported as promising markers for drug-induced liver injury (DILI). BAs have been suggested to correlate with hepatocellular and hepatobiliary damage; however a clear connection of BA patterns with different types of DILI remains to be established. To investigate if BAs can improve the assessment of liver injury, 20 specific BAs were quantitatively profiled via LC-MS/MS in plasma and liver tissue in a model of methapyrilene-induced liver injury in rats. Methapyrilene, a known hepatotoxin was dosed daily over 14-days at doses of 30 and 80mg/kg, followed by a recovery phase of 10days. Conventional preclinical safety endpoints were related to BA perturbations and to hepatic gene expression profiling for a mechanistic interpretation of effects. Histopathological signs of hepatocellular and hepatobiliary damage with significant changes of clinical chemistry markers were accompanied by significantly increased levels of indivdual BAs in plasma and liver tissue. BA perturbations were already evident at the earliest time point after 30mg/kg treatment, and thereby indicating better sensitivity than clinical chemistry parameters. Furthermore, the latter markers suggested recovery of liver injury, whereas BA levels in plasma and liver remained significantly elevated during the recovery phase, in line with persistent histopathological findings of bile duct hyperplasia (BDH) and bile pigment deposition. Gene expression profiling revealed downregulation of genes involved in BA synthesis (AMACR, BAAT, ACOX2) and hepatocellular uptake (NTCP, OATs), and upregulation for efflux transporters (MRP2, MRP4), suggesting an adaptive hepatocellular protection mechanism against cytotoxic bile acid accumulation. In summary, our data suggests that specific BAs with high reliability such as cholic acid (CA) and chenodeoxycholic acid (CDCA) followed by glycocholic acid (GCA), taurocholic acid (TCA) and deoxycholic acid (DCA) can serve as additional biomarkers for hepatocellular/hepatobiliary damage in the liver in rat toxicity studies.