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RECEPTORS AND SIGNAL TRANSDUCTION

Tastants evoke cAMP signal in taste buds that is independent of calcium signaling

¹Department of Physiology and Biophysics and ²Neuroscience Program, University of Miami Miller School of Medicine, Miami, Florida; and ³Department of Biomedical Sciences, Colorado State University, Fort Collins, Colorado

Submitted 21 June 2005 ; accepted in final form 22 February 2006

We previously showed that rat taste buds express several adenylyl cyclases (ACs) of which only AC8 is known to be stimulated by Ca²⁺. Here we demonstrate by direct measurements of cAMP levels that AC activity in taste buds is stimulated by treatments that elevate intracellular Ca²⁺. Specifically, 5 µM thapsigargin or 3 µM A-23187 (calcium ionophore), both of which increase intracellular Ca²⁺ concentration ([Ca²⁺]_i), lead to a significant elevation of cAMP levels. This calcium stimulation of AC activity requires extracellular Ca²⁺, suggesting that it is dependent on Ca²⁺ entry rather than release from stores. With immunofluorescence microscopy, we show that the calcium-stimulated AC8 is principally expressed in taste cells that also express phospholipase C₂ (i.e., cells that elevate [Ca²⁺]_i in response to sweet, bitter, or umami stimuli). Taste transduction for sucrose is known to result in an elevation of both cAMP and calcium in taste buds. Thus we tested whether the cAMP increase in response to sucrose is a downstream consequence of calcium elevation. Even under conditions of depletion of stored and extracellular calcium, the cAMP response to sucrose stimulation persists in taste cells. The cAMP signal in response to monosodium glutamate stimulation is similarly unperturbed by calcium depletion. Our results suggest that tastant-evoked cAMP signals are not simply a secondary consequence of calcium modulation. Instead, cAMP and released Ca²⁺ may represent independent second messenger signals downstream of taste receptors.

calcium-sensitive adenylyl cyclase; capacitative entry; cross talk; taste transduction

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