Ion dependence of the tarsal sugar receptor of the blowfly Phormia regina

The activity of the tarsal sugar receptor is greatly reduced following prolonged water exposure. The animal's behavior, which characteristícally reflects receptor input, also shows decreased acceptance of sucrose solutions following prolonged tarsal immersion in deionized water. Long exposure of the tarsi to Bodenstein's saline instead of water does not produce as large a decrement in the acceptance response as does water exposure. Recovery of the behavioral response occurs spontaneously after a few hours. The original response level can also be restored immediately if a moderate concentration (0.05 to 0.2 M) of KCl or NaCl is added to the sucrose stimulus. The effect of LiCl is ambiguous: it inhibits the normal sucrose response, thereby tending to mask any restorative effects. The electrophysiological data show that the cellular response level is also restored when Na + or K + ions are present in the stimulus. The above data are interpreted to mean that the effect of tarsal water exposure is to slowly leach out ions in the effective extracellular fluid surrounding the receptor membrane, thus lowering the membrane potential and deceasing the receptor potential upon stimulation. The fact that Na + and K + when supplied in the stimulating solution temporarily restore the original response level suggests that these extrinsically added ions can be used as current carrying ions to depolarize the cell. The data suggest that the sensillum contains three functional compartments interconnected by partial diffusion barriers: (1) a ‘receptor compartment’ (2) an axial cylinder which contains the dendrites and functions as the immediate extracellular ion source, and (3) a larger axial cylinder which serves as an ion reservoir. A method for statistically analyzing behavioral acceptance data is presented.