Axon-to-Glia Interaction Regulates GABA<sub>A</sub>Receptor Expression in Oligodendrocytes

Arellano, Rogelio O.; Sánchez‐Gómez, María Victoria; Alberdi, Elena; Canedo-Antelo, Manuel; Chara, Juan Carlos; Palomino, Aitor; Pérez-Samartı́n, Alberto; Matute, Carlos

doi:10.1124/mol.115.100594

Cited by 43 publications

(69 citation statements)

References 45 publications

(71 reference statements)

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“…This transient innervation is concomitant to the temporal expression window of the γ2 subunit of GABA A receptors (γ2‐GABA A Rs) in OPCs (Balia et al, ), a subunit preferentially expressed at unitary synaptic connections between parvalbumin (PV)‐expressing fast‐spiking interneurons and OPCs (Orduz et al, ). Along the oligodendrocyte lineage, γ2 expression is restricted to the OPC stage (Zhang et al, ; Arellano et al, ) and γ2‐GABA A Rs are exclusively located at OPC postsynaptic sites (Balia et al, ; Orduz et al, ; Passlick et al, ). In this report, we induced a loss‐of‐function of γ2‐GABA A Rs in OPCs to test whether γ2‐mediated synaptic signaling affects OPC dynamics.…”

Section: Introductionmentioning

confidence: 99%

A specific GABAergic synapse onto oligodendrocyte precursors does not regulate cortical oligodendrogenesis

Balia

Benamer

Angulo

2017

Glia

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In the brain, neurons establish bona fide synapses onto oligodendrocyte precursor cells (OPCs), but the function of these neuron-glia synapses remains unresolved. A leading hypothesis suggests that these synapses regulate OPC proliferation and differentiation. However, a causal link between synaptic activity and OPC cellular dynamics is still missing. In the developing somatosensory cortex, OPCs receive a major type of synapse from GABAergic interneurons that is mediated by postsynaptic γ2-containing GABA receptors. Here we genetically silenced these receptors in OPCs during the critical period of cortical oligodendrogenesis. We found that the inactivation of γ2-mediated synapses does not impact OPC proliferation and differentiation or the propensity of OPCs to myelinate their presynaptic interneurons. However, this inactivation causes a progressive and specific depletion of the OPC pool that lacks γ2-mediated synaptic activity without affecting the oligodendrocyte production. Our results show that, during cortical development, the γ2-mediated interneuron-to-OPC synapses do not play a role in oligodendrogenesis and suggest that these synapses finely tune OPC self-maintenance capacity. They also open the interesting possibility that a particular synaptic signaling onto OPCs plays a specific role in OPC function according to the neurotransmitter released, the identity of presynaptic neurons or the postsynaptic receptors involved.

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Section: Introductionmentioning

confidence: 99%

A specific GABAergic synapse onto oligodendrocyte precursors does not regulate cortical oligodendrogenesis

Balia

Benamer

Angulo

2017

Glia

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“…Although this is the first demonstration that GAT‐1 is expressed in oligodendrocytes, our findings are not surprising given the known relationships between GABA and oligodendrocytes (Hamilton et al, in press; Verkhratsky and Butt, ). Functional GABA A R have been demonstrated in oligodendrocyte progenitor cells (OPCs) and in oligodendrocytes (Arellano et al, ; Berger et al, ; Kirchhoff and Kettenmann, ; Lin and Bergles, ; Vélez‐Fort et al, ; Von Blankenfeld et al, ), and GABAergic synapses from neurons are known to contact OPCs (Lin and Bergles, ; Tanaka et al, ). In addition, GABA B R are expressed by OPCs, and are down‐regulated in myelinating oligodendrocytes (Charles et al, ; Luyt et al, ).…”

Section: Discussionmentioning

confidence: 99%

GAT‐1 mediated GABA uptake in rat oligodendrocytes

Fattorini

Melone

Sánchez‐Gómez

et al. 2017

Glia

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Stimulated by the results of a recent paper on the effects of tiagabine, a selective inhibitor of the main GABA transporter GAT-1, on oligodendrogenesis, we verified the possibility that GAT-1 may be expressed in oligodendrocytes using immunocytochemical methods and functional assays. Light microscopic analysis of the subcortical white matter of all animals revealed the presence of numerous GAT-1+ cells of different size (from 3 to 29 µm) and morphology. An electron microscope analysis revealed that, besides fibrous astrocytes and interstitial neurons, GAT-1 immunoreactivity was present in immature and mature oligodendrocytes. Co-localization studies between GAT-1 and markers specific for oligodendrocytes (NG2 and RIP) showed that about 12% of GAT-1 positive cells in the white matter were immature oligodendrocytes, while about 15% were mature oligodendrocytes. In vitro functional assays showed that oligodendrocytes exhibit tiagabine-sensitive Na -dependent GABA uptake. Although relationships between GABA and oligodendrocytes have been known for many years, this is the first demonstration that GAT-1 is expressed in oligodendrocytes. The present results on the one hand definitely closes the era of "neuronal" and "glial" GABA transporters, on the other they suggest that oligodendrocytes may contribute to pathophysiology of the several diseases in which GAT-1 have been implicated to date. GLIA 2017;65:514-522.

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“…Several reports have revealed that the sensitivity to GABA of mature OLs is greatly diminished compared to OPCs, suggesting a specific regulation of GABA A R expression during OL lineage cell development (Figure b; Arellano et al, ; Berger, Walz, Schnitzer, & Kettenmann, ; Von Blankenfeld, Trotter, & Kettenmann, ). Concerning the OL mature state, Arellano et al () recently observed that GABA A R‐mediated responses also drastically decreases with time in isolated OL cultures, while the presence of neurons in cocultures allows for maintaining their functional expression. A direct interaction between neurons and OLs seems therefore necessary to stabilize GABA A Rs in differentiated cells.…”

Section: Gaba In Neuron–oligodendroglia Communicationmentioning

confidence: 91%

“…However, the neuron‐to‐OL signals involved in this process remain unknown. Blockade of neuronal activity with the Na + channel blocker TTX does not change OLs sensitivity to GABA, suggesting that a basal neuronal activity is not required to keep GABA A R functional expression (Arellano et al, ).…”

Section: Gaba In Neuron–oligodendroglia Communicationmentioning

confidence: 99%

Glutamate versus GABA in neuron–oligodendroglia communication

Habermacher

Angulo

Benamer

2019

Glia

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In the central nervous system (CNS), myelin sheaths around axons are formed by glial cells named oligodendrocytes (OLs). In turn, OLs are generated by oligodendrocyte precursor cells (OPCs) during postnatal development and in adults, according to a process that depends on the proliferation and differentiation of these progenitors. The maturation of OL lineage cells as well as myelination by OLs are complex and highly regulated processes in the CNS. OPCs and OLs express an array of receptors for neurotransmitters, in particular for the two main CNS neurotransmitters glutamate and GABA, and are therefore endowed with the capacity to respond to neuronal activity. Initial studies in cell cultures demonstrated that both glutamate and GABA signaling mechanisms play important roles in OL lineage cell development and function. However, much remains to be learned about the communication of glutamatergic and GABAergic neurons with oligodendroglia in vivo. This review focuses on recent major advances in our understanding of the neuron–oligodendroglia communication mediated by glutamate and GABA in the CNS, and highlights the present controversies in the field. We discuss the expression, activation modes and potential roles of synaptic and extrasynaptic receptors along OL lineage progression. We review the properties of OPC synaptic connectivity with presynaptic glutamatergic and GABAergic neurons in the brain and consider the implication of glutamate and GABA signaling in activity‐driven adaptive myelination.

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Axon-to-Glia Interaction Regulates GABA_AReceptor Expression in Oligodendrocytes

Cited by 43 publications

References 45 publications

A specific GABAergic synapse onto oligodendrocyte precursors does not regulate cortical oligodendrogenesis

A specific GABAergic synapse onto oligodendrocyte precursors does not regulate cortical oligodendrogenesis

GAT‐1 mediated GABA uptake in rat oligodendrocytes

Glutamate versus GABA in neuron–oligodendroglia communication

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Axon-to-Glia Interaction Regulates GABAAReceptor Expression in Oligodendrocytes

Cited by 43 publications

References 45 publications

A specific GABAergic synapse onto oligodendrocyte precursors does not regulate cortical oligodendrogenesis

A specific GABAergic synapse onto oligodendrocyte precursors does not regulate cortical oligodendrogenesis

GAT‐1 mediated GABA uptake in rat oligodendrocytes

Glutamate versus GABA in neuron–oligodendroglia communication

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Axon-to-Glia Interaction Regulates GABA_AReceptor Expression in Oligodendrocytes