Astrocytic control of synaptic function.
TLDR
The existing anatomical and functional evidence of local interactions between astrocytes and synapses is reviewed, and how it underlies a role for astroCytes in the computation of synaptic information is reviewed.Abstract:
Astrocytes intimately interact with synapses, both morphologically and, as evidenced in the past 20 years, at the functional level. Ultrathin astrocytic processes contact and sometimes enwrap the synaptic elements, sense synaptic transmission and shape or alter the synaptic signal by releasing signalling molecules. Yet, the consequences of such interactions in terms of information processing in the brain remain very elusive. This is largely due to two major constraints: (i) the exquisitely complex, dynamic and ultrathin nature of distal astrocytic processes that renders their investigation highly challenging and (ii) our lack of understanding of how information is encoded by local and global fluctuations of intracellular calcium concentrations in astrocytes. Here, we will review the existing anatomical and functional evidence of local interactions between astrocytes and synapses, and how it underlies a role for astrocytes in the computation of synaptic information.This article is part of the themed issue 'Integrating Hebbian and homeostatic plasticity'.read more
Citations
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Lactate in the brain: from metabolic end-product to signalling molecule
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Towards an Understanding of Synapse Formation.
TL;DR: It is proposed that engagement of multifarious synaptic CAMs produces parallel trans-synaptic signals that mediate the establishment, organization, and plasticity of synapses, thereby controlling information processing by neural circuits.
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Astrocytes, neurons, synapses: a tripartite view on cortical circuit development.
TL;DR: A combined overview of the developmental processes of synapse and circuit formation in the rodent cortex is provided, emphasizing the timeline of both neuronal and astrocytic development and maturation.
Journal ArticleDOI
Layer-specific morphological and molecular differences in neocortical astrocytes and their dependence on neuronal layers
Darin Lanjakornsiripan,Baek Jun Pior,Daichi Kawaguchi,Shohei Furutachi,Shohei Furutachi,Tomoaki Tahara,Yu Katsuyama,Yutaka Suzuki,Yugo Fukazawa,Yukiko Gotoh +9 more
TL;DR: It is shown that astrocytes of the mouse somatosensory cortex manifest layer-specific morphological and molecular differences that depend on the neurons within those layers, suggesting that neuronal layers are a prerequisite for the observed morphologicaland molecular differences of neocortical astroCytes.
Journal ArticleDOI
Astroglial CB1 Receptors Determine Synaptic D-Serine Availability to Enable Recognition Memory.
Laurie M. Robin,José F. Oliveira da Cruz,Valentin C Langlais,Mario Martin-Fernandez,Mathilde Metna-Laurent,Arnau Busquets-Garcia,Luigi Bellocchio,Edgar Soria-Gomez,Thomas Papouin,Marjorie Varilh,Mark W. Sherwood,Ilaria Belluomo,Georgina Balcells,Isabelle Matias,Barbara Bosier,Filippo Drago,Ann Van Eeckhaut,Ilse Julia Smolders,François Georges,Alfonso Araque,Aude Panatier,Stéphane H. R. Oliet,Giovanni Marsicano,Giovanni Marsicano +23 more
TL;DR: It is shown that astroglial CB1 receptors are key determinants of object recognition memory by determining the availability of D-serine at hippocampal synapses and elevating D-Serine levels fully rescued LTP and memory impairments of GFAP-CB1-KO mice.
References
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