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Molina-Arcas, M. et al.

Human equilibrative nucleoside transporter-1 (hENT1) is required for the transcriptomic response of the nucleoside-derived drug 5'-DFUR in breast cancer MCF7 cells.

Nucleoside analogues are broadly used in cancer treatment. Although nucleoside metabolism is a necessary step in the development of their cytotoxicity, mediated transport across the plasma membrane might be needed for nucleoside-derived drugs to exert their pharmacological action. In this study, we have addressed the question of whether particular plasma membrane transporters contribute to the transcriptomic response associated with nucleoside-derived drug therapy. Firstly, we have characterized the nucleoside transporters responsible for 5'-DFUR uptake into the breast cancer cell line MCF7. 5'-DFUR is the immediate precursor of 5-FU and a metabolite of the orally administered pro-drug capecitabine, currently used in the treatment of breast cancer and other solid tumors. Although 5'-DFUR is a substrate for both plasma membrane equilibrative nucleoside carriers, hENT1 shows higher affinity for this molecule than hENT2. Inhibition of hENT1 function partially protected MCF7 cells from 5'-DFUR-induced cytotoxicity. Secondly, we have used a pharmacogenomic approach to determine how inhibition of hENT1 function contributes to the transcriptomic response associated to 5'-DFUR treatment. Under hENT1 inhibition most of the transcriptional targets of 5'-DFUR action, which were genes associated with apoptosis and cell cycle progression were blocked. This study demonstrates that although 5'-DFUR is substrate for both equilibrative nucleoside carriers, hENT1 function is essential for the full transcriptional response to 5'-DFUR treatment.[1]

References

Human equilibrative nucleoside transporter-1 (hENT1) is required for the transcriptomic response of the nucleoside-derived drug 5'-DFUR in breast cancer MCF7 cells. Molina-Arcas, M., Moreno-Bueno, G., Cano-Soldado, P., Hern??ndez-Vargas, H., Casado, F.J., Palacios, J., Pastor-Anglada, M. Biochem. Pharmacol. (2006) [Pubmed]

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