Frontiers in Computational Neuroscience (Dec 2012)

Computational quest for understanding the role of astrocyte signaling in synaptic transmission and plasticity

  • Maurizio eDe Pitta',
  • Vladislav eVolman,
  • Vladislav eVolman,
  • Vladislav eVolman,
  • Hugues eBerry,
  • Vladimir eParpura,
  • Vladimir eParpura,
  • Andrea eVolterra,
  • Eshel eBen-Jacob,
  • Eshel eBen-Jacob,
  • Eshel eBen-Jacob

DOI
https://doi.org/10.3389/fncom.2012.00098
Journal volume & issue
Vol. 6

Abstract

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The complexity of the signaling network that underlies astrocyte-synapse interactions may seem discouraging when tackled from a theoretical perspective. Computational modeling is challenged by the fact that many details remain hitherto unknown and conventional approaches to describe synaptic function are unsuitable to explain experimental observations when astrocytic signaling is taken into account. Supported by experimental evidence is the possibility that astrocytes perform genuine information processing by means of their calcium signaling and are players in the physiological setting of the basal tone of synaptic transmission. Here we consider the plausibility of this scenario from a theoretical perspective, focusing on the modulation of synaptic release probability by the astrocyte and its implications on synaptic plasticity. The analysis of the signaling pathways underlying such modulation refines our notion of the tripartite synapse and has profound implications on our understanding of brain function.

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