HEPATIC UPTAKE OF THE NOVEL ANTIFUNGAL AGENT CASPOFUNGIN

doi:10.1124/dmd.104.003244

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Drug Metabolism and Disposition Fast Forward
First published on February 16, 2005; DOI: 10.1124/dmd.104.003244

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Received for publication December 15, 2004.
Revised February 13, 2005.
Accepted for publication February 14, 2005.

HEPATIC UPTAKE OF THE NOVEL ANTIFUNGAL AGENT CASPOFUNGIN

Punam Sandhu ¹, Wooin Lee ², Xin Xu ³, Brenda F. Leake ², Masayo Yamazaki ¹, Julie A. Stone ¹, Jiunn H. Lin ¹, Paul G. Pearson ⁴, Richard B. Kim ²^*

¹ Merck Research Laboratories ² Vanderbilt University School of Medicine ³ Wyeth Pharmceuticals ⁴ Amgen

^* Address correspondence to: E-mail: richard.kim{at}vanderbilt.edu

Abstract

Caspofungin (CANCIDAS^TM)² is a novel echinocandin antifungalagent used in the treatment of esophageal and invasive candidiases,invasive aspergillosis and neutropenia. Available data suggestliver is a key organ responsible for caspofungin eliminationin rodents and humans. Caspofungin is primarily eliminatedby metabolic transformation, however, the rate of metabolismis slow. Accordingly, it was hypothesized that drug uptaketransporters expressed on the basolateral domain of hepatocytescould significantly influence the extent of caspofungin uptakeand subsequent elimination. In this study, experiments rangingfrom perfused rat livers to heterologous expression of individualhepatic uptake transporters were utilized to identify the transporter(s)responsible for the observed liver-specific uptake of this compound. Data from perfused rat liver studies were consistent with thepresence of carrier-mediated caspofungin hepatic uptake, althoughthis process appeared to be slow. In order to identify a relevanthepatic uptake transporter, we developed novel Tet-on^TM HeLacells expressing OATP1B1 (OATP-C, SLC21A6) and OATP1B3 (OATP8,SLC21A8), whose target gene can be overexpressed by the additionof doxycycline. A modest but statistically significant uptakeof caspofungin was observed in cells overexpressing OATP1B1,but not OATP1B3. Taken together, these findings suggest thatOATP1B1 mediated hepatic uptake may contribute to the overallelimination of this drug from the body.

Key words: active transport, drug transport, hepatobiliary transport

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