S100β-mediated astroglial control of firing and input processing in layer 5 pyramidal neurons of the mouse visual cortex.
Dimitri RyczkoMaroua Hanini-DaoudSteven CondamineBenjamin J B BréantMaxime FougèreRoberto ArayaArlette KoltaPublished in: The Journal of physiology (2020)
The most complex cerebral functions are performed by the cortex, whose most important output is carried out by its layer 5 pyramidal neurons. Their firing reflects integration of the sensory and contextual information that they receive. There is evidence that astrocytes influence cortical neuron firing through the release of gliotransmitters such as ATP, glutamate or GABA. These effects have been described at the network and at the synaptic levels, but it is still unclear how astrocytes influence neuron input-output transfer function at the cellular level. Here, we used optogenetic tools coupled with electrophysiological, imaging and anatomical approaches to test whether and how astrocytic activation affected processing of distal inputs to layer 5 pyramidal neurons (L5PNs). We show that optogenetic activation of astrocytes near L5PN cell body prolonged firing induced by distal inputs to L5PNs and potentiated their ability to trigger spikes. The observed astrocytic effects on L5PN firing involved glutamatergic transmission to some extent but relied mostly on release of S100β, an astrocytic Ca2+ -binding protein that decreases extracellular Ca2+ once released. This astrocyte-evoked decrease in extracellular Ca2+ elicited firing mediated by activation of Nav1.6 channels. Our findings suggest that astrocytes contribute to the cortical fundamental computational operations by controlling the extracellular ionic environment.