Competitive interactions between supernumerary and normal sensory neurons in the cockroach are mediated through a change in quantal content and not quantal size

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J Neurophysiol 74: 1573-1582, 1995;
0022-3077/95 $5.00

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Competitive interactions between supernumerary and normal sensory neurons in the cockroach are mediated through a change in quantal content and not quantal size

M. A. Sosa and J. M. Blagburn
Institute of Neurobiology, University of Puerto Rico, Old San Juan 00901.

1. The final steps in synapse formation and stabilization involve the adjustment of strength of connections through competitive interactions between neurons contacting a common target. The mechanisms underlying this competition-driven adjustment of synaptic strength are not well understood. We have studied one aspect of this phenomenon using the cercal sensory system of first instar cockroach nymphs. 2. Quantal analysis of excitatory postsynaptic potentials (EPSPs) recorded at the synapse between the lateral filiform hair sensory neuron (L) and giant interneuron 3 (GI3) was carried out to determine whether the reduction in EPSP amplitude observed in the presence of an additional sensory neuron ("space invader neuron" or SIN) was due to pre- or postsynaptic changes. 3. Mean quantal content, not quantal size, was reduced at the L-GI3 synapse in the presence of a SIN. Fitting binomial distributions to the EPSP amplitude histograms gave estimates of the number of releasable quanta or of synaptic sites (n) and the probability of release at these sites (p). The reduction in quantal content is associated with a decrease in the binomial parameter n and not p, suggesting that there is a decrease in the number of contacts, release sites, or quanta available for release, rather than a change in probability of release.

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