Abstract
Some quaternary ammonium derivatives of ellipticine are active antitumor drugs on both experimental and human tumors. Because of their positive charge, the cellular uptake of these molecules is expected to be influenced by the electric membrane potential. Experimental variations of the potential were produced by changing the external potassium concentration and the potassium permeability by the addition of valinomycin. Using the fluorescent lipophilic cationic dye 3,3-dihexyloxacarbocyanine iodide, the L1210 cell membrane potential was estimated at −35 mV by flow cytometric analysis, and the same techiique was then used to study the effects of the membrane potential variations on 2- N-methyl-ellipticinium (NME) cellular uptake. Our results show that indeed NME uptake depends on the cell membrane potential, which might then influence its pharmacological properties.
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