Hepatobiliary transport governs overall elimination of peptidic endothelin antagonists in rats.
The overall disposition and hepatobiliary transport of BQ-123, an anionic cyclopentapeptide, and three analogs were examined in rats in vivo. Total body clearance (CLtotal) and biliary excretion clearance (CLbile, p) exhibited 4- to 8-fold differences between the compounds, with those for BQ-485 and compound A having the highest and lowest values, respectively. The CLbile, p values of BQ-485, BQ-123, and BQ-518 were almost equal to the CLtotal, suggesting that hepatobiliary transport is the major elimination pathway for these compounds. Hepatic uptake clearance (CLuptake, vivo) and biliary excretion clearance (CLbile, h/fT), which was defined for the hepatic unbound concentration, were separately determined to examine the hepatic uptake and excretion processes, respectively. Both the CLuptake, vivo and CLbile, h/fT of BQ-485 were higher than those of BQ-123, whereas the corresponding values for BQ-518 were similar to those for BQ-123. The CLuptake, vivo and CLbile, h/fT of compound A were, respectively, approximately two thirds and one half those of BQ-123, suggesting that the lower CLbile, p value is due to the low efficiency of both the uptake and excretion processes. The CLuptake, vivo of these four peptides in vivo was similar to the extrapolated values based on the carrier-mediated transport activity previously assessed in vitro in isolated rat hepatocytes. The primary active transport previously assessed in an in vitro study in canalicular membrane vesicles was also highest for BQ-485 and lowest for compound A, similar to CLbile, h/fT in vivo. Thus, the transporters on both the sinusoidal and canalicular membranes determine the efficiency of the peptide overall elimination from the circulation.[1]References
- Hepatobiliary transport governs overall elimination of peptidic endothelin antagonists in rats. Kato, Y., Akhteruzzaman, S., Hisaka, A., Sugiyama, Y. J. Pharmacol. Exp. Ther. (1999) [Pubmed]
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