ABSTRACT: Introduction:An in vivo determination of bile acid hepatobiliary transport efficiency can be of use in liver disease and preclinical drug development. Given the increased interest in bile acid Positron Emission Tomography- (PET-) imaging, a further understanding of the impact of 18-fluorine substitution on bile acid handling in vitro and in vivo can be of significance. Methods:A number of bile acid analogues were conceived for nucleophilic substitution with [18F]fluoride: cholic acid analogues of which the 3-, 7-, or 12-OH function is substituted with a fluorine atom (3?-[18F]FCA; 7?-[18F]FCA; 12?-[18F]FCA); a glycocholic and chenodeoxycholic acid analogue, substituted on the 3-position (3?-[18F]FGCA and 3?-[18F]FCDCA, resp.). Uptake by the bile acid transporters NTCP and OATP1B1 was evaluated with competition assays in transfected CHO and HEK cell lines and efflux by BSEP in membrane vesicles. PET-scans with the tracers were performed in wild-type mice (n = 3 per group): hepatobiliary transport was monitored and compared to a reference tracer, namely, 3?-[18F]FCA. Results:Compounds 3?-[18F]FCA, 3?-[18F]FGCA, and 3?-[18F]FCDCA were synthesized in moderate radiochemical yields (4-10% n.d.c.) and high radiochemical purity (>99%); 7?-[18F]FCA and 12?-[18F]FCA could not be synthesized and included further in this study. In vitro evaluation showed that 3?-FCA, 3?-FGCA, and 3?-FCDCA all had a low micromolar Ki-value for NTCP, OATP1B1, and BSEP. In vivo, 3?-[18F]FCA, 3?-[18F]FGCA, and 3?-[18F]FCDCA displayed hepatobiliary transport with varying efficiency. A slight yet significant difference in uptake and efflux rate was noticed between the 3?-[18F]FCA and 3?-[18F]FCA epimers. Conjugation of 3?-[18F]FCA with glycine had no significant effect in vivo. Compound 3?-[18F]FCDCA showed a significantly slower hepatic uptake and efflux towards gallbladder and intestines. Conclusion:A set of 18F labeled bile acids was synthesized that are substrates of the bile acid transporters in vitro and in vivo and can serve as PET-biomarkers for hepatobiliary transport of bile acids.