BREAKDOWN OF CREATINE PHOSPHATE AND ATP IN NERVE TERMINALS AND ELECTROPLAQUES OF THE TORPEDO ELECTRIC ORGAN: COMPARISON WITH THE ELECTRICAL ENERGY DISSIPATED

Abstract— The electrical work performed by the electric organ of Torpedo was compared with the energy provided by the net breakdown of ATP and creatine phosphate (CrP). The electrical work was calculated for single impulses and for repetitive stimulations. The content in CrP and ATP was measured at different times in the course of stimulation and during the period of recovery. The chemical expenditure due to activity of the nerve terminals was distinguished from the total expenditure by the use of curare which interrupts synaptic transmission but does not interfere to any great extent with the release of acetylcholine. In the presence of curare the breakdown of phosphagen started only after more than 1 min of stimulation; it represented the loss of about 20-25% of the initial store. In untreated tissue the breakdown of CrP and ATP occurred in two phases and continued within the first minute after the end of the stimulation; as much as 77% of the phosphagen content was utilized under these conditions. The recovery of ATP and CrP was completed only 3-5 h after stimulation, a long time after the restoration of the physical capabilities of the tissue. The electrical energy dissipated during activity was smaller than the chemical energy provided by the net breakdown of phosphagens. This suggests that only a fraction of the chemical energy is utilized directly to compensate for the physical work accomplished, i.e. for the restoration of the ionic electromotive force. The electric organ also requires chemical energy for other purposes, particularly in the nerve endings where the presynaptic machinery seems to utilize an important fraction of the high energy phosphates stored in the tissue.