Add to ORKGBackground and purpose: Astrocytic connexins (Cxs) play roles in ion diffusion to the extracellular milieu and in release of ATP and gliotransmitters including glutamate. Connexin 43 (Cx43) is one of the most abundant Cxs in brain tissue, especially in the hippocampus, so, we investigated its role on CA1 baseline synaptic response and short term synaptic plasticity. Materials and methods: In this experimental study, bilateral intrahippocampal microinjection of TAT-Gap19, Cx43 blocker (1nmol/1μl) was performed for inhibition of hippocampal astrocytic connexin 43. Baseline synaptic response and short term synaptic plasticity were evaluated by field potential recording. Results: According to two-way ANOVA, inhibition of hippocampal Cx43 did n...
International audienceAstrocytes interact dynamically with neurons by modifying synaptic activity an...
Perisynaptic astrocytes are active partners of neurons in cerebral information processing. A key pro...
International audienceAstrocytes are glial cells organized in dynamic and structured networks in the...
Astrocytes are active players in higher brain function as they can release gliotransmitters, which a...
International audienceAstrocytes dynamically interact with neurons to regulate synaptic transmission...
The mechanisms by which astrocytes modulate neural homeostasis, synaptic plasticity, and memory are ...
International audienceAstrocytes crucially contribute to synaptic physiology and information process...
In the central nervous system (CNS), astrocytes form networks interconnected by gap junctions made f...
International audienceAstrocytes play important roles in brain function via dynamic structural and f...
In the brain, astrocytes represent the cellular population that expresses the highest amount of conn...
International audienceAstrocytes interact dynamically with neurons by modifying synaptic activity an...
Perisynaptic astrocytes are active partners of neurons in cerebral information processing. A key pro...
International audienceAstrocytes are glial cells organized in dynamic and structured networks in the...
Astrocytes are active players in higher brain function as they can release gliotransmitters, which a...
International audienceAstrocytes dynamically interact with neurons to regulate synaptic transmission...
The mechanisms by which astrocytes modulate neural homeostasis, synaptic plasticity, and memory are ...
International audienceAstrocytes crucially contribute to synaptic physiology and information process...
In the central nervous system (CNS), astrocytes form networks interconnected by gap junctions made f...
International audienceAstrocytes play important roles in brain function via dynamic structural and f...
In the brain, astrocytes represent the cellular population that expresses the highest amount of conn...
International audienceAstrocytes interact dynamically with neurons by modifying synaptic activity an...
Perisynaptic astrocytes are active partners of neurons in cerebral information processing. A key pro...
International audienceAstrocytes are glial cells organized in dynamic and structured networks in the...