Abstract

The effect of acute hypoosmotic stress on the neural response was investigated using the neurons identified in the abdominal ganglion of the amphibious mollusk Onchidium. The membrane potential of an identified neuron (Ip-1/2) was not significantly altered in 50% hypoosmotic artificial sea water. In isotonic 50% artificial seawater (ASW) with osmolarity that was compensated for using glycerol or urea, the membrane potentials of Ip-1/2 were also not altered compared to those in 50% hypoosmotic ASW. However, hyperpolarization was induced in isotonic 50% ASW when osmolarity was compensated for using sucrose or mannose. In the presence of volume-regulated anion channel (VRAC) inhibitors (niflumic acid and glibenclamide), the Ip-1/2 membrane potentials were hyperpolarized in 50% hypoosmotic ASW. These results suggest that there is a compensatory mechanism involving aquaglyceroporin and VRAC-like channels that maintains membrane potential under hypoosmotic conditions. Here, we detected the expression of aquaglyceroporin mRNA in neural tissues of Onchidium.

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