2019
DOI: 10.1101/2019.12.14.866442
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Modulation of cortical slow oscillatory rhythm by GABABreceptors: an experimental and computational study

Abstract: AbstractSlow wave oscillations (SWO) dominate cortical activity during deep sleep, anesthesia and in some brain lesions. SWO consist of Up states or periods of activity interspersed with Down states or periods of silence. The rhythmicity expressed during SWO integrates neuronal and connectivity properties of the network and it is often altered in neurological pathological conditions. Different mechanisms have been proposed to drive the transitions between Up and Down states, in… Show more

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Cited by 5 publications
(6 citation statements)
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“…Our results show more positive and negative ratio to the DMS-MSNs during the upward and downward Up states transitions slopes respectively, suggesting a different inhibitory recruitment in the DLS compared to DMS. In active cortical slices with SWO, both upward and downward transition slopes are controlled by GABAA and GABAB receptor activation (Perez-Zabalza et al, 2020;Sanchez-Vives et al, 2010). Based on these evidences, and beyond the glutamatergic inputs, we hypothesize that PV interneurons may greatly influence the SWO of DLS-MSNs making them different from DMS ones.…”
Section: Dls and Dms Are Two Different Functional Circuits In Mousementioning
confidence: 84%
“…Our results show more positive and negative ratio to the DMS-MSNs during the upward and downward Up states transitions slopes respectively, suggesting a different inhibitory recruitment in the DLS compared to DMS. In active cortical slices with SWO, both upward and downward transition slopes are controlled by GABAA and GABAB receptor activation (Perez-Zabalza et al, 2020;Sanchez-Vives et al, 2010). Based on these evidences, and beyond the glutamatergic inputs, we hypothesize that PV interneurons may greatly influence the SWO of DLS-MSNs making them different from DMS ones.…”
Section: Dls and Dms Are Two Different Functional Circuits In Mousementioning
confidence: 84%
“…Many factors contribute to terminating Up states in cortical slice preparations, including mechanisms intrinsic to L5 neurons, synaptic depression, and GABAergic inhibition (Sanchez-Vives and McCormick, 2000;Mann et al, 2009;Perez-Zabalza et al, 2020). Our findings that midline thalamic neurons take part in controlling Down transition and that blocking GABABRs prolongs Up states in naturally sleeping mice (Figure S1) indicate an active mechanism governing Up state termination, which may help explain the remarkable synchrony of Down transition across cortical areas (Volgushev et al, 2006;Sheroziya & Timofeev, 2014).…”
Section: Synchronization Of Down Transition By Thalamic Inputmentioning
confidence: 75%
“…Evidence in support of the theory that slow oscillations can be generated by isolated cortex comes from the finding that they emerge from cortical slabs [6] and cortical slices [7] ( Figure 1D). The slow oscillation is a rhythm generated and maintained by the cortex [6,8,9] through the interaction between the synaptic reverberation of the network and activity-dependent adaptation mechanisms [7,10] and/or slow inhibition [11][12][13]. Furthermore, it is a rhythm of local origin, in which the long-range connectivity that characterizes the wakeful state of the brain is significantly reduced [14][15][16], slow oscillations being rather similar across different cortical areas [17].…”
Section: Introductionmentioning
confidence: 99%