Voltage sensing by fluorescence resonance energy transfer in single cells.

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Voltage sensing by fluorescence resonance energy transfer in single cells.

J E González and R Y Tsien

Howard Hughes Medical Institute, University of California, San Diego, La Jolla 92093-0647, USA.

ABSTRACT

A new mechanism has been developed for achieving fast ratiometricvoltage-sensitive fluorescence changes in single cells usingfluorescence resonance energy transfer. The mechanism is basedon hydrophobic fluorescent anions that rapidly redistributefrom one face of the plasma membrane to the other accordingto the Nernst equation. A voltage-sensitive fluorescent readoutis created by labeling the extracellular surface of the cellwith a second fluorophore, here a fluorescently labeled lectin,that can undergo energy transfer with the membrane-bound sensor.Fluorescence resonance energy transfer between the two fluorophoresis disrupted when the membrane potential is depolarized, becausethe anion is pulled to the intracellular surface of the plasmamembrane far from the lectin. Bis-(1,3-dialkyl-2-thiobarbiturate)-trimethineoxonols,where alkyl is n-hexyl and n-decyl (DiSBA-C6-(3) and DiSBA-C10-(3),respectively) can function as donors to Texas Red labeled wheatgerm agglutinin (TR-WGA) and acceptors from fluorescein-labeledlectin (FI-WGA). In voltage-clamped fibroblasts, the translocationof these oxonols is measured as a displacement current witha time constant of approximately 2 ms for 100 mV depolarizationat 20 degrees C, which equals the speed of the fluorescencechanges. Fluorescence ratio changes of between 4% and 34% wereobserved for a 100-mV depolarization in fibroblasts, astrocytomacells, beating cardiac myocytes, and B104 neuroblastoma cells.The large fluorescence changes allow high-speed confocal imaging.

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