Litcius/Paper detail

Increased membrane <scp>Ca<sup>2+</sup></scp> permeability drives astrocytic <scp>Ca<sup>2+</sup></scp> dynamics during neuronal stimulation at excitatory synapses

Jarand B. Hjukse, Mario Fernández de la Puebla, Gry Fluge Vindedal, Rolf Sprengel, Vidar R. Jensen, Erlend A. Nagelhus, Wannan Tang

2023Glia14 citationsDOIOpen Access PDF

Abstract

Abstract Astrocytes are intricately involved in the activity of neural circuits; however, their basic physiology of interacting with nearby neurons is not well established. Using two‐photon imaging of neurons and astrocytes during higher frequency stimulation of hippocampal CA3‐CA1 Schaffer collateral (Scc) excitatory synapses, we could show that increasing levels of released glutamate accelerated local astrocytic Ca 2+ elevation. However, blockage of glutamate transporters did not abolish this astrocytic Ca 2+ response, suggesting that astrocytic Ca 2+ elevation is indirectly associated with an uptake of extracellular glutamate. However, during the astrocytic glutamate uptake, the Na + /Ca 2+ exchanger (NCX) reverse mode was activated, and mediated extracellular Ca 2+ entry, thereby triggering the internal release of Ca 2+ . In addition, extracellular Ca 2+ entry via membrane P2X receptors further facilitated astrocytic Ca 2+ elevation via ATP binding. These findings suggest a novel mechanism of activity induced Ca 2+ permeability increases of astrocytic membranes, which drives astrocytic responses during neuronal stimulation of CA3‐CA1 Scc excitatory synapses.

Topics & Concepts

Glutamate receptorExcitatory postsynaptic potentialExtracellularBiologyStimulationAstrocyteNMDA receptorSchaffer collateralNeuroscienceHippocampal formationBiophysicsPremovement neuronal activityCell biologyBiochemistryReceptorCentral nervous systemInhibitory postsynaptic potentialNeuroscience and Neuropharmacology ResearchIon channel regulation and functionNeuroinflammation and Neurodegeneration Mechanisms