eLife (Jan 2021)

Release probability increases towards distal dendrites boosting high-frequency signal transfer in the rodent hippocampus

  • Thomas P Jensen,
  • Olga Kopach,
  • James P Reynolds,
  • Leonid P Savtchenko,
  • Dmitri A Rusakov

DOI
https://doi.org/10.7554/eLife.62588
Journal volume & issue
Vol. 10

Abstract

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Dendritic integration of synaptic inputs involves their increased electrotonic attenuation at distal dendrites, which can be counterbalanced by the increased synaptic receptor density. However, during network activity, the influence of individual synapses depends on their release fidelity, the dendritic distribution of which remains poorly understood. Here, we employed classical optical quantal analyses and a genetically encoded optical glutamate sensor in acute hippocampal slices of rats and mice to monitor glutamate release at CA3-CA1 synapses. We find that their release probability increases with greater distances from the soma. Similar-fidelity synapses tend to group together, whereas release probability shows no trends regarding the branch ends. Simulations with a realistic CA1 pyramidal cell hosting stochastic synapses suggest that the observed trends boost signal transfer fidelity, particularly at higher input frequencies. Because high-frequency bursting has been associated with learning, the release probability pattern we have found may play a key role in memory trace formation.

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