A study of synaptic transmission in the absence of nerve impulses

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A study of synaptic transmission in the absence of nerve impulses

B. Katz and R. Miledi

1. The axo-axonic giant synapse in the stellate ganglion ofthe squid has been used to study synaptic transmission.

2. When nerve impulses have been eliminated with tetrodotoxin,synaptic transfer of potential changes can still be obtainedby applying brief depolarizing pulses to the presynaptic terminal.

3. Suitably matched pulses are as effective as the normal presynapticspike in evoking post-synaptic potentials. The synaptic delayand the time course of the post-synaptic potential are verysimilar to that in the normal preparation.

4. The synaptic transfer (input/output) characteristic has beenstudied under different experimental conditions. With brief(1-2 msec) current pulses, post-synaptic response becomes detectablewhen the presynaptic depolarization exceeds about 30 mV. Thepost-synaptic potential increases about tenfold with 10 mV incrementsof presynaptic depolarization.

5. Calcium increases, magnesium reduces the slope of the synaptictransfer curve. The influences on this curve of (i) durationof the pulse, (ii) preceding level of membrane potential, (iii)position of recording electrode, (iv) rate of repetitive stimulationare described.

6. After loading the synaptic terminal with tetraethylammoniumions, large inside-positive potentials can be produced in theterminal and maintained for many milliseconds.

7. By raising the internal potential to a sufficiently highlevel, synaptic transfer becomes suppressed during the pulse,and the post-synaptic response is delayed until the end of thepulse.

8. This observation is in accord with a prediction of the `calciumhypothesis', viz. that inward movement of a positively chargedCa compound, or of the calcium ion itself, constitutes one ofthe essential links in the `electro-secretory' coupling processof the axon terminal.

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