Dual actions of caffeine on voltage-dependent currents and intracellular calcium in taste receptor cells

doi:10.1152/ajpregu.00410.2001

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Dual actions of caffeine on voltage-dependent currents and intracellular calcium in taste receptor cells

Fang-Li Zhao¹, Shao-Gang Lu¹, and Scott Herness¹^,²

¹ Department of Oral Biology, College of Dentistry, and ² Department of Neuroscience, College of Medicine, Ohio State University, Columbus, Ohio 43210

Although the numerous stimuli representing the taste quality of bitterness are known to be transduced through multiple mechanisms,recent studies have suggested an unpredicted complexity of thetransduction pathways for individual bitter stimuli. To investigatethis notion more thoroughly, a single prototypic bitter stimulus,caffeine, was studied by using patch-clamp and ratiometric imagingtechniques on dissociated rat taste receptor cells. At behaviorallyrelevant concentrations, caffeine produced strong inhibition ofoutwardly and inwardly rectifying potassium currents. Caffeineadditionally inhibited calcium current, produced a weaker inhibitionof sodium current, and was without effect on chloride current.Consistent with its effects on voltage-dependent currents, caffeinecaused a broadening of the action potential and an increase ofthe input resistance. Caffeine was an effective stimulus for elevationof intracellular calcium. This elevation was concentration dependent,independent of extracellular calcium or ryanodine, and dependenton intracellular stores as evidenced by thapsigargin treatment.These dual actions on voltage-activated ionic currents and intracellularcalcium levels suggest that a single taste stimulus, caffeine,utilizes multiple transductionmechanisms.

sensory transduction; bitter; patch clamp; fura 2; ratiometric imaging

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