Voltage sensitive K+ channels, which are responsible for generation of membrane potential in most cells, are functionally absent in about one-third of peripheral murine T cells and greatly reduced in the rest as shown by resistance of their membrane potential to changes in extracellular potassium concentration and failure of K+ channel dependent volume regulation. Despite the absence of voltage- sensitive K+ channels, the membrane potential of peripheral T cells is between -60 and -70 mV, the same as thymocytes. A total of 40 to 70 mV of the membrane potential of peripheral T cells is produced by the direct electrogenic action of the asymmetric Na+K+ ATPase pump because the cells are depolarized by ouabain, an inhibitor of the pump, removal of extracellular potassium or reduction of temperature. The residual, ouabain-resistant membrane potential, is sensitive to the K+ channel blocker, quinine, and thus due to electrodiffusion through K+ channels. Na+ and K+ turnover, and sensitivity to ouabain, are the same in peripheral T cells and thymocytes. The predominant mechanism of membrane potential generation changes during T lymphocyte differentiation from electrodiffusion in the thymus to electrogenic in peripheral T cells and back to electrodiffusion upon peripheral cell activation.
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