Insights into the release mechanism of astrocytic glutamate evoking in neurons NMDA receptor‐mediated slow depolarizing inward currents

Gómez-Gonzalo, Marta; Zehnder, Tamara; Requie, Linda Maria; Bezzi, Paola; Carmignoto, Giorgio

doi:10.1002/glia.23473

Cited by 29 publications

(16 citation statements)

References 66 publications

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“…Indeed, Ca 2+ -dependent SICs in CA1 pyramidal neurons evoked by protease-activated receptor 1 (PAR-1) activation in astrocytes were normal in Swell1 mutant mice (Figure S7). These data indicate the existence of VRAC-independent glutamate-releasing and SIC-generating mechanisms (Gó mez-Gonzalo et al, 2018), which may include other channel candidates, such as bestrophin-1 and hemichannels. Besides glutamate release, the concomitant reduction of the extracellular space during cell swelling markedly increases the effective glutamate concentration, which could also contribute to SIC generation (Lauderdale et al, 2015).…”

Section: Discussionmentioning

confidence: 75%

Glutamate-Releasing SWELL1 Channel in Astrocytes Modulates Synaptic Transmission and Promotes Brain Damage in Stroke

Yang

Vitery

Chen

et al. 2019

Neuron

186

184

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Section: Discussionmentioning

confidence: 75%

Glutamate-Releasing SWELL1 Channel in Astrocytes Modulates Synaptic Transmission and Promotes Brain Damage in Stroke

Yang

Vitery

Chen

et al. 2019

Neuron

186

184

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“…According to the original sandwich synapse hypothesis, stimulation in a given ‘ cis’ neuron propagates to neighboring nerve cells following the activation of the purinergic P2Y12 receptors expressed by the surrounding SGCs, which have been hypothesized to release glutamate that acts onto the NMDA receptors expressed at the membrane of the ‘ trans’ neuron (Rozanski et al ., 2013). In line with such a possibility, astrocytic glutamate was shown to evoke NMDA receptor‐mediated slow depolarizing inward currents in neurons (Gómez‐Gonzalo et al ., 2018). In DRGs, the spread of excitation driven through sandwich synapses is enhanced in a variety of pathological pain conditions (Ohara et al ., 2009; Wu et al ., 2012; Kim et al ., 2016).…”

Section: Discussionmentioning

confidence: 99%

Cytoarchitectural analysis of the neuron‐to‐glia association in the dorsal root ganglia of normal and diabetic mice

et al. 2020

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Dorsal root ganglia (DRGs) host the somata of sensory neurons which convey information from the periphery to the central nervous system. These neurons have heterogeneous size and neurochemistry, and those of small-to-medium size, which play an important role in nociception, form two distinct subpopulations based on the presence (peptidergic) or absence (non-peptidergic) of transmitter neuropeptides. Few investigations have so far addressed the spatial relationship between neurochemically different subpopulations of DRG neurons and glia. We used a whole-mount mouse lumbar DRG preparation, confocal microscopy and computer-aided 3D analysis to unveil that IB4 + non-peptidergic neurons form small clusters of 4.7 ± 0.26 cells, differently from CGRP + peptidergic neurons that are, for the most, isolated (1.89 ± 0.11 cells). Both subpopulations of neurons are ensheathed by a thin layer of satellite glial cells (SGCs) that can be observed after immunolabeling with the specific marker glutamine synthetase (GS). Notably, at the ultrastructural level we observed that this glial layer was discontinuous, as there were patches of direct contact between the membranes of two adjacent IB4 + neurons. To test whether this cytoarchitectonic organization was modified in the diabetic neuropathy, one of the most devastating sensory pathologies, mice were made diabetic by streptozotocin (STZ). In diabetic animals, cluster organization of the IB4 + non-peptidergic neurons was maintained, but the neuro-glial relationship was altered, as STZ treatment caused a statistically significant increase of GS staining around CGRP + neurons but a reduction around IB4 + neurons. Ultrastructural analysis unveiled that SGC coverage was increased at the interface between IB4 + cluster-forming neurons in diabetic mice, with a 50% reduction in the points of direct contacts between cells. These observations demonstrate the existence of a structural plasticity of the DRG cytoarchitecture in response to STZ.

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“…The following references appear in the supplemental information: Amzica, 2002, Angulo et al, 2004, Araque et al, 1998a, Araque et al, 1998b, Araque et al, 2000, Fellin et al, 2004, Gó mez-Gonzalo et al, 2018, Innocenti et al, 2000, Kang et al, 1998, Mishima and Hirase, 2010, Ni and Parpura, 2009, Perea and Araque, 2005, Perea et al, 2014, Poskanzer and Yuste, 2016, Sasaki et al, 2012.…”

Section: Supporting Citationsmentioning

confidence: 99%

Non-canonical glutamate signaling in a genetic model of migraine with aura

Parker

Suryavanshi

Melone

et al. 2021

Neuron

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Insights into the release mechanism of astrocytic glutamate evoking in neurons NMDA receptor‐mediated slow depolarizing inward currents

Cited by 29 publications

References 66 publications

Glutamate-Releasing SWELL1 Channel in Astrocytes Modulates Synaptic Transmission and Promotes Brain Damage in Stroke

Glutamate-Releasing SWELL1 Channel in Astrocytes Modulates Synaptic Transmission and Promotes Brain Damage in Stroke

Cytoarchitectural analysis of the neuron‐to‐glia association in the dorsal root ganglia of normal and diabetic mice

Non-canonical glutamate signaling in a genetic model of migraine with aura

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