Your search keyword '"M. Cvetkovic"' showing total 2 results

1. Modulation by drugs of human hepatic sodium-dependent bile acid transporter (sodium taurocholate cotransporting polypeptide) activity.

Author

B, Kim R, B, Leake, M, Cvetkovic, M, Roden M, J, Nadeau, A, Walubo, and R, Wilkinson G

Abstract

Adequate bile flow, maintained in part by the efficient enterohepatic recirculation of bile acids, is critical for normal liver function. One important component of this process is the uptake of bile acids from the portal circulation into hepatocytes by the bile acid uptake transporter sodium taurocholate cotransporting polypeptide (NTCP). Thus, the expression and functional activity of this transporter may affect the rate of bile acid removal from the portal circulation. Accordingly, we assessed NTCP mRNA expression from human livers using a sensitive RNase protection assay. In addition, the ability of various bile acids and drugs to inhibit NTCP activity was determined using a recombinant vaccinia expression system. A 40-fold interindividual variability was found in NTCP mRNA levels determined in eight liver samples of disease-free donors. Expressed NTCP exhibited high-affinity, sodium-dependent uptake of taurocholate, and as expected, this was markedly inhibited by bile acids and organic anions. A number of drugs, including peptidomimetic renin inhibitors, propranolol, cyclosporin, and progesterone, were found to be potent inhibitors, whereas antiarrhythmic agents, including bupivicaine, lidocaine, and quinidine, were found to enhance NTCP activity. Accordingly, these results indicate that large interindividual variability exists in NTCP mRNA level and that a number of drugs currently in clinical use have the potential to interact with and alter NTCP activity, thereby affecting hepatic bile acid uptake.

Published

1999

2. OATP and P-glycoprotein transporters mediate the cellular uptake and excretion of fexofenadine.

Author

M, Cvetkovic, B, Leake, F, Fromm M, R, Wilkinson G, and B, Kim R

Abstract

Fexofenadine, a nonsedating antihistamine, does not undergo significant metabolic biotransformation. Accordingly, it was hypothesized that uptake and efflux transporters could be importantly involved in the drug's disposition. Utilizing a recombinant vaccinia expression system, members of the organic anion transporting polypeptide family, such as the human organic anion transporting polypeptide (OATP) and rat organic anion transporting polypeptides 1 and 2 (Oatp1 and Oatp2), were found to mediate [(14)C]fexofenadine cellular uptake. On the other hand, the bile acid transporter human sodium taurocholate cotransporting polypeptide (NTCP) and the rat organic cation transporter rOCT1 did not exhibit such activity. P-glycoprotein (P-gp) was identified as a fexofenadine efflux transporter, using the LLC-PK1 cell, a polarized epithelial cell line lacking P-gp, and the derivative cell line (L-MDR1), which overexpresses P-gp. In addition, oral and i.v. administration of [(14)C]fexofenadine to mice lacking mdr1a-encoded P-gp resulted in 5- and 9-fold increases in the drug's plasma and brain levels, respectively, compared with wild-type mice. Also, a number of drug inhibitors of P-gp were found to be effective inhibitors of OATP. Because OATP transporters and P-gp colocalize in organs of importance to drug disposition such as the liver, their activity provides an explanation for the heretofore unknown mechanism(s) responsible for fexofenadine's disposition and suggests potentially similar roles in the disposition of other xenobiotics.

Published

1999