In rodents, the vomeronasal system controls social and sexual behavior. However, several mechanistic aspects of sensory signaling in the vomeronasal organ remain unclear. Here, we investigate the biophysical basis of a recently proposed vomeronasal signal transduction component—a Ca2+-activated Cl– current. As the physiological role of such a current is a direct function of the Cl– equilibrium potential, we determined the intracellular Cl– concentration in dendritic knobs of vomeronasal neurons. Quantitative fluorescence lifetime imaging of a Cl–-sensitive dye at the apical surface of the intact vomeronasal neuroepithelium revealed increased cytosolic Cl– levels in dendritic knobs, a substantially lower Cl– concentration in vomeronasal sustentacular cells, and an apparent Cl– gradient in vomeronasal neurons along their dendritic apicobasal axis. Together, our data provide a biophysical basis for sensory signal amplification in vomeronasal neuron microvilli by opening Ca2+-activated Cl– channels.
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