Chemically Mediated Transmission at a Giant Fiber Synapse in the Central Nervous System of a Vertebrate

doi:10.1085/jgp.53.2.183

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Chemically Mediated Transmission at a Giant Fiber Synapse in the Central Nervous System of a Vertebrate

A. A. Auerbach ¹ and M. V. L. Bennett ¹

¹ From the Department of Anatomy, Albert Einstein College of Medicine, Bronx, New York 10461, and the Laboratory of Neurophysiology, Department of Neurology, College of Physicians and Surgeons, Columbia University, New York 10032.

The present address of both authors is Department of Anatomy, Albert Einstein College of Medicine, Bronx, New York 10461

The hatchetfish, Gasteropelecus, possesses large pectoral finadductor muscles whose simultaneous contraction enables thefish to dart upwards at the approach of a predator. These musclescan be excited by either Mauthner fiber. In the medulla, eachMauthner fiber forms axo-axonic synapses on four "giant fibers,"two on each side of the midline. Each pair of giant fibers innervatesipsilateral motoneurons controlling the pectoral fin adductormuscles. Mauthner fibers and giant fibers can be penetratedsimultaneously by microelectrodes close to the synapses betweenthem. Electrophysiological evidence indicates that transmissionfrom Mauthner to giant fiber is chemically mediated. Under someconditions miniature postsynaptic potentials (PSP's) are observed,suggesting quantal release of transmitter. However, relativelyhigh frequency stimulation reduces PSP amplitude below thatof the miniature potentials, but causes no complete failuresof PSP's. Thus quantum size is reduced or postsynaptic membraneis desensitized. Ramp currents in Mauthner fibers that risetoo slowly to initiate spikes can evoke responses in giant fibersthat appear to be asynchronous PSP's. Probably both spikes andramp currents act on the same secretory mechanism. A singleMauthner fiber spike is followed by prolonged depression oftransmission; also PSP amplitude is little affected by currentpulses that markedly alter presynaptic spike height. These findingssuggest that even a small spike releases most of an immediatelyavailable store of transmitter. If so, the probability of releaseby a single spike is high for any quantum of transmitter withinthis store.

Submitted on June 20, 1968

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