GABAρ subunits confer a bicuculline-insensitive component to GFAP
            <sup>+</sup>
            cells of cerebellum

Pétriz, Adriana; Reyes‐Haro, Daniel; González-González, María Alejandra; Miledi, Ricardo; Martı́nez-Torres, Ataúlfo

doi:10.1073/pnas.1419632111

Cited by 17 publications

(17 citation statements)

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“…The lack of muscimol response in astrocytes was surprising considering that functional expression of GABAARs was demonstrated in Bergmann glia at P5-P7 and GABAAmediated signaling at P20-P30 was drastically reduced or undetectable (Müller et al, 1994), suggesting that while GABAA signaling is important through early postnatal development of the cerebellum, there is an apparently different regulation for WM. In support of this hypothesis, functional expression of GABAARs was also reported in ependymal glial cells from the cerebellum located at the roof of the fourth ventricle (Reyes-Haro et al, 2013a), while immunofluorescence studies revealed the expression of the GABAAρ1 subunit in astrocytes from the granular layer of the cerebellar lobule X (Pétriz, et al, 2014). Astrocytes from WM give rise to interneurons of the molecular layer during the postnatal development of the cerebellum (Silbereis et al, 2009).…”

Section: Gabaa Is Functionally Expressed In Ng2 Gliamentioning

confidence: 66%

“…Classically, the astrocyte-like precursor cells are responsive to GABA in multiple brain regions, such as the hippocampus (Seri et al, 2001, Ge et al, 2006 and sub-ventricular zones (Bolteus andBordey, 2004, Liu et al, 2005). Functional expression of GABAARs has been demonstrated in diverse glial cells from the cerebellum, for example in Bergmann's glia (Müller et at., 1994), in ependymal cells from the periventricular zone (Reyes-Haro et al, 2013) and in primary cultures of cerebellar astrocytes (Pétriz et al, 2014). Moreover, the functional expression of GABAARs in NG2 glial cells from cerebellar WM was also reported (Zonouzi et al, 2015).…”

Section: Introductionmentioning

confidence: 96%

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GABA_A receptors are selectively expressed in NG2 glia of the cerebellar white matter

Labrada-Moncada

Reyes‐Haro

Martı́nez-Torres

2019

Preprint

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The cerebellum is involved in the coordination of movement. Its cellular composition is dominated by GABAergic neuronal types, and glial cells are known to express functional receptors. GABAergic signaling regulates cell proliferation, differentiation, and migration during neurodevelopment. However, little is known about the functional expression of GABA receptors in the cerebellar white matter (WM). Thus, the aim of this study was to test whether glial cells express functional GABA receptors during postnatal development (P7-P9) of cerebellar WM. Immunofluorescence studies showed that half of the astrocytes express GAD67, suggesting that GABA is synthetized by glial cells. Calcium imaging in cerebellar slices revealed that GABA and the GABAA agonist muscimol evoked calcium transients in sulforhodamine B (SRB) negative cells, whereas the GABAB agonist baclofen failed to evoke responses in cerebellar WM. Whole-cell patch-clamp recordings of GFAP + cells showed dye coupling and a passive current-voltage relation typical of astrocytes. Surprisingly, these cells did not respond to muscimol. Two additional populations were identified as GFAPcells. The first population showed dye coupling, slow decaying inward and outward currents with no voltage dependence and did not respond to GABAA agonists. The second population showed an outward-rectifying current-voltage relationship and responded to muscimol, but dye coupling was absent.These cells received synaptic input and were NG2 + , but evoked calcium waves failed to modulate the frequency of sPSCs or signal directly to NG2 glia. We conclude that GABAA receptor-mediated signaling is selective for NG2 glia in the WM of the cerebellum.

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Section: Gabaa Is Functionally Expressed In Ng2 Gliamentioning

confidence: 66%

Section: Introductionmentioning

confidence: 96%

GABA_A receptors are selectively expressed in NG2 glia of the cerebellar white matter

Labrada-Moncada

Reyes‐Haro

Martı́nez-Torres

2019

Preprint

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“…Parental support interacted with two GABA‐related genes (gamma‐aminobutyric acid): GABRR1 and GABRR2 (both genes coding for subunits of the GABA A ‐rho receptor, formerly known as GABA C ‐receptor (Enz, ; D. Zhang, Pan, Awobuluyi, & Lipton, )). It is well‐known that both GABA A and GABA A ‐rho receptors are ionotropic receptors, but the exact mechanism of different subunits involved in the GABA A ‐rho receptor function in the central nervous system remains unclear (Olsen & Sieghart, ; Pétriz, Reyes‐Haro, González‐González, Miledi, & Martínez‐Torres, ; Yoon & Lee, ).…”

Section: Discussionmentioning

confidence: 99%

Gene‐based interaction analysis shows GABAergic genes interacting with parenting in adolescent depressive symptoms

Assche

Moons

Cinar

et al. 2017

Child Psychology Psychiatry

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“…However, GABA‐ρ receptors express as homomeric ion channels, and some studies suggest pseudoheteromeric channels consisting of different ρ subunits (Connolly et al, ). There is some limited in vitro evidence to support co‐assembly of ρ subunits with other GABA A subunits, particularly with α1 and γ2 (Milligan et al, ; Pétriz et al, ), and also with glycine receptor α1 and α2 subunits (Pan et al, ).…”

Section: Ionotropic Gaba Receptor Subunit Compositionmentioning

confidence: 99%

“…The presence of GABA ρ1 and ρ2 subunits, either homomerically or combined with other GABA A (α1 and γ2) subunits, has also been identified in cultured cerebellar astrocytes. It is proposed that these GABA‐ρ subunits may contribute to the regulation of glial development in the cerebellum (Pétriz et al, ). Although GABA‐ρ receptors are mainly expressed in the CNS, they are also found in the peripheral nervous system, for example, in the gastrointestinal tract (Jansen et al, ), and sperm cells (Li et al, ).…”

Section: Gaba‐ρ Receptorsmentioning

confidence: 99%

GABA‐ρ receptors: distinctive functions and molecular pharmacology

Naffaa

Hung

Chebib

et al. 2017

British J Pharmacology

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The homomeric GABA-ρ ligand-gated ion channels (also known as GABA or GABA -ρ receptors) are similar to heteromeric GABA receptors in structure, function and mechanism of action. However, their distinctive pharmacological properties and distribution make them of special interest. This review focuses on GABA-ρ ion channel structure, ligand selectivity toward ρ receptors over heteromeric GABA receptor sub-types and selectivity between different homomeric ρ sub-type receptors. Several GABA analogues show selectivity at homomeric GABA-ρ receptors over heteromeric GABA receptors. More recently, some synthetic ligands have been found to show selectivity at receptors formed from one ρ subtype over others. The unique pharmacological profiles of these agents are discussed in this review. The classical binding site of GABA within the orthosteric site of GABA-ρ homomeric receptors is discussed in detail regarding the loops and residues that constitute the binding site. The ligand-residue interactions in this classical binding and those of mutant receptors are discussed. The structure and conformations of GABA are discussed in regard to its flexibility and molecular properties. Although the binding mode of GABA is difficult to predict, several interactions between GABA and the receptor assist in predicting its potential conformation and mode of action. The structure-activity relationships of GABA and structurally key ligands at ρ receptors are described and discussed.

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GABAρ subunits confer a bicuculline-insensitive component to GFAP ⁺ cells of cerebellum

Cited by 17 publications

References 50 publications

GABA_A receptors are selectively expressed in NG2 glia of the cerebellar white matter

GABA_A receptors are selectively expressed in NG2 glia of the cerebellar white matter

Gene‐based interaction analysis shows GABAergic genes interacting with parenting in adolescent depressive symptoms

GABA‐ρ receptors: distinctive functions and molecular pharmacology

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GABAρ subunits confer a bicuculline-insensitive component to GFAP + cells of cerebellum

Cited by 17 publications

References 50 publications

GABAA receptors are selectively expressed in NG2 glia of the cerebellar white matter

GABAA receptors are selectively expressed in NG2 glia of the cerebellar white matter

Gene‐based interaction analysis shows GABAergic genes interacting with parenting in adolescent depressive symptoms

GABA‐ρ receptors: distinctive functions and molecular pharmacology

Contact Info

Product

Resources

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GABAρ subunits confer a bicuculline-insensitive component to GFAP ⁺ cells of cerebellum

GABA_A receptors are selectively expressed in NG2 glia of the cerebellar white matter

GABA_A receptors are selectively expressed in NG2 glia of the cerebellar white matter