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MEMBRANE TRANSPORTERS, ION CHANNELS, AND PUMPS

Characterization of the rat Na⁺/nucleoside cotransporter 2 and transport of nucleoside-derived drugs using electrophysiological methods

Department of Physiology and Nutrition, University of Navarra, Pamplona, Spain

Submitted 11 March 2006 ; accepted in final form 10 July 2006

The Na⁺-dependent nucleoside transporter 2 (CNT2) mediates active transport of purine nucleosides and uridine as well as therapeutic nucleoside analogs. We used the two-electrode voltage-clamp technique to investigate rat CNT2 (rCNT2) transport mechanism and study the interaction of nucleoside-derived drugs with the transporter expressed in Xenopus laevis oocytes. The kinetic parameters for sodium, natural nucleosides, and nucleoside derivatives were obtained as a function of membrane potential. For natural substrates, apparent affinity (K_0.5) was in the low micromolar range (12–34) and was voltage independent for hyperpolarizing membrane potentials, whereas maximal current (I_max) was voltage dependent. Uridine and 2'-deoxyuridine analogs modified at the 5-position were substrates of rCNT2. Lack of the 2'-hydroxyl group decreased affinity but increased I_max. Increase in the size and decrease in the electronegativity of the residue at the 5-position affected the interaction with the transporter by decreasing both affinity and I_max. Fludarabine and formycin B were also transported with higher I_max than uridine and moderate affinity (102 ± 10 and 66 ± 6 µM, respectively). Analysis of the pre-steady-state currents revealed a half-maximal activation voltage of about –39 mV and a valence of about –0.8. K_0.5 for Na⁺ was 2.3 mM at –50 mV and decreased at hyperpolarizing membrane potentials. The Hill coefficient was 1 at all voltages. Direct measurements of radiolabeled nucleoside fluxes with the charge associated showed a ratio of two positive inward charges per nucleoside, suggesting a stoichiometry of two Na⁺ per nucleoside. This discrepancy in the number of Na⁺ molecules that bind rCNT2 may indicate a low degree of cooperativity between the Na⁺ binding sites.

two-electrode voltage clamp; concentrative nucleoside transport; presteady-state currents

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