New Tools to Study Astrocyte Ca2+ Signal Dynamics in Brain Networks In Vivo

  • Losi G
  • Mariotti L
  • Sessolo M
  • et al.
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Abstract

Sensory information processing is a fundamental operation in the brain that is based on dynamic interactions between different neuronal populations. Astrocytes, a type of glial cells, have been proposed to represent active elements of brain microcircuits that, through dynamic interactions with neurons, provide a modulatory control of neuronal network activity. Specifically, astrocytes in different brain regions have been described to respond to neuronal signals with intracellular Ca2+ elevations that represent a key step in the functional recruitment of astrocytes to specific brain circuits. Accumulating evidence shows that Ca2+ elevations regulate the release of gliotransmitters that, in turn, modulate synaptic transmission and neuronal excitability. Recent studies also provided new insights into the spatial and temporal features of astrocytic Ca2+ elevations revealing a surprising complexity of Ca2+ signal dynamics in astrocytes. Here we discuss how recently developed experimental tools such as the genetically encoded Ca2+ indicators (GECI), optogenetics and chemogenetics can be applied to the study of astrocytic Ca2+ signals in the living brain.

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Losi, G., Mariotti, L., Sessolo, M., & Carmignoto, G. (2017). New Tools to Study Astrocyte Ca2+ Signal Dynamics in Brain Networks In Vivo. Frontiers in Cellular Neuroscience, 11. https://doi.org/10.3389/fncel.2017.00134

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