Relevance of the organic cation transporters 1 and 2 for antiretroviral therapy in HIV infection

doi:10.1124/dmd.108.020826

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Drug Metabolism and Disposition Fast Forward
First published on May 19, 2008; DOI: 10.1124/dmd.108.020826

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Received for publication February 5, 2008.
Revised May 15, 2008.
Accepted for publication May 15, 2008.

Relevance of the organic cation transporters 1 and 2 for antiretroviral therapy in HIV infection

Norma Jung ¹^*, Clara Lehmann ¹, Andrea Rubbert ¹, Meike Knispel ¹, Pia Hartmann ¹, Jan van Lunzen ², Hans-Juergen Stellbrink ², Gerd Faetkenheuer ¹, Dirk Taubert ¹

¹ University of Cologne ² University of Hamburg

^* Address correspondence to: E-mail: norma.jung{at}uni-koeln.de

Abstract

Carrier-mediated transport across cell membranes is an importantdeterminant of activity, resistance and toxicity of chemotherapeuticagents including antiretroviral drugs (ARDs). The organic cationtransporters OCT1 and OCT2 have been implicated in the translocationof different cationic drugs, but so far were insufficientlytested for interactions with ARDs. Here, we assessed among cationicdrugs commonly used in HIV therapy inhibitors and substratesof OCTs, and analyzed the tissue distribution of OCTs and theirexpression in lymph nodes, the primary intracellular targetof HIV and ARDs. Inhibitors were identified by measuring theattenuated uptake of the radiolabeled model substrate 1-methyl-4-phenylpyridiniuminto OCT-transfected HEK-293-cells in the presence of ARDs.Substrates were identified by measuring OCT-specific intracellularaccumulation using LC-MS/MS. Inhibitory drugs were (in orderof increasing potency): nelfinavir < ritonavir < saquinavir< indinavir < trimethoprim < pentamidine, with consistentlylower IC₅₀ values determined for OCT1. Substrates with highesttransport efficacy (v_max/K_M) were lamivudine (OCT1: 8 µl/mgprotein/min, OCT2: 4.4 µl/mg protein/min) and zalcitabine(OCT1: 4.1 µl/mg protein/min, OCT2: : 2.6 µl/mg protein/min). Using quantitative real-time PCR, a marked expression levelof OCT1 was detected in human samples of liver, ovary, prostateand testis, and of OCT2 in kidney, colon, heart, skeletal muscleand testis. Expression of OCTs in lymph nodes was low in HIV-negativecontrol individuals, but dramatically increased in HIV-infectedpersons. These data suggest that drug interactions about theOCTs may be relevant for the antiretroviral therapy, in particularby influencing drug accession to infected tissues and hepaticor renal elimination.

Key words: antivirals, clinical pharmacology, drug transport, drug-drug interactions, organic cation transport, transporters