Impact of Synaptic Unreliability on the Information Transmitted by Spiking Neurons

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Impact of Synaptic Unreliability on the Information Transmitted by Spiking Neurons

Anthony Zador

Salk Institute, La Jolla, California 92037

Zador, Anthony. Impact of synaptic unreliability on the information transmitted by spiking neurons. J. Neurophysiol.79: 1219-1229, 1998. The spike generating mechanism of corticalneurons is highly reliable, able to produce spikes with a precisionof a few milliseconds or less. The excitatory synapses drivingthese neurons are by contrast much less reliable, subject bothto release failures and quantal fluctuations. This suggests thatsynapses represent the primary bottleneck limiting the faithfultransmission of information through cortical circuitry. How doesthe capacity of a neuron to convey information depend on the propertiesof its synaptic drive? We address this question rigorously inan information theoretic framework. We consider a model in whicha population of independent unreliable synapses provides the driveto an integrate-and-fire neuron. Within this model, the mutualinformation between the synaptic drive and the resulting outputspike train can be computed exactly from distributions that dependonly on a single variable, the interspike interval. The reductionof the calculation to dependence on only a single variable greatlyreduces the amount of data required to obtain reliable informationestimates. We consider two factors that govern the rate of informationtransfer: the synaptic reliability and the number of synapsesconnecting each presynaptic axon to its postsynaptic target (i.e.,the connection redundancy, which constitutes a special form ofinput synchrony). The information rate is a smooth function ofboth mechanisms; no sharp transition is observed from an "unreliable"to a "reliable" mode. Increased connection redundancy can compensatefor synaptic unreliability, but only under the assumption thatthe fine temporal structure of individual spikes carries information.If only the number of spikes in some relatively long-time windowcarries information (a "mean rate" code), an increase in the fidelityof synaptic transmission results in a seemingly paradoxical decreasein the information available in the spike train. This suggeststhat the fine temporal structure of spike trains can be used tomaintain reliable transmission with unreliable synapses.

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