Mechanism of excitation of aplysia neurons by carbon dioxide

Abstract

The abdominal ganglion of Aplysia californica was perfused with artificial seawater equilibrated at different Pco2‘s and pH’s for 5 min or less. 5 % CO2 dropped perfusate pH from 8.0 to 6.5 and produced depolarization and increased discharge rate in visceromotor neurons. Half the giant cells studied had a similar response, whereas the other half were hyperpolarized. Pacemaker neurons showed little, if any, response to such changes in pH or CO2. Membrane conductance of responsive cells was always increased. The effect of CO2 occurred even when synaptic transmission was blocked by low calcium and high magnesium, and therefore must have been a direct result of CO2 or the concomitant fall in pH. When extracellular pH was lowered to 6.5 using HC1 or H2SO4 and no CO2, the same effects were observed. Also, local application of HC1 or H2SO4 to the external surface of the cell soma elicited depolarization and spike discharge. When extracellular pH was held constant by continual titration, 5-50 % CO2 had no effect. Intracellular pH was probably decreased at least one pH unit under these circumstances. Thus CO2 per se, decreased intracellular pH, and increased bicarbonate ion were without effect. It is concluded that CO2 acts solely through a decrease in extracellular pH. © 1970, Rockefeller University Press., All rights reserved.