Reliability of Signal Transfer at a Tonically Transmitting, Graded Potential Synapse of the Locust Ocellar Pathway

We assessed the performance of a synapse that transmits small, sustained, graded potentials between two classes of second-order ocellar "L-neurons" of the locust. We characterized the transmission of both fixed levels of membrane potential and fluctuating signals by recording postsynaptic...

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Bibliographic Details
Published in:The Journal of neuroscience 2005-08, Vol.25 (33), p.7529-7537
Main Authors: Simmons, Peter J, de Ruyter van Steveninck, Rob
Format: Article
Language:English
Subjects:
Animals
Brain - physiology
Cellular/Molecular
Flight, Animal - physiology
Grasshoppers - physiology
Neural Pathways - physiology
Neurons - physiology
Orthoptera
Photic Stimulation - methods
Synapses - physiology
Synaptic Transmission - physiology
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Summary:We assessed the performance of a synapse that transmits small, sustained, graded potentials between two classes of second-order ocellar "L-neurons" of the locust. We characterized the transmission of both fixed levels of membrane potential and fluctuating signals by recording postsynaptic responses to changes in presynaptic potential. To ensure repeatability between stimuli, we controlled presynaptic signals with a voltage clamp. We found that the synapse introduces noise above the level of background activity in the postsynaptic neuron. By driving the presynaptic neuron with slow-ramp changes in potential, we found that the number of discrete signal levels the synapse transmits is approximately 20. It can also transmit approximately 20 discrete levels when the presynaptic signal is a graded rebound spike. Synaptic noise level is constant over the operating range of the synapse, which would not be expected if presynaptic potential set the probability for the release of individual quanta of neurotransmitter according to Poisson statistics. Responses to individual quanta of neurotransmission could not be resolved, which is consistent with a synapse that operates with large numbers of vesicles evoking small responses. When challenged with white noise stimuli, the synapse can transmit information at rates up to 450 bits/s, a performance that is sufficient to transmit natural signals about changes in illumination.
ISSN:0270-6474
1529-2401
DOI:10.1523/JNEUROSCI.1119-05.2005