Conductance of Recombinant GABA Channels Is Increased in Cells Co-expressing GABAA A Receptor-associated Protein

Everitt, Andrea B.; Luu, Tien; Cromer, Brett A.; Tierney, Mary L.; Birnir, Bryndis; Olsen, Richard W.; Gage, Peter W.

doi:10.1074/jbc.m312806200

Cited by 66 publications

(82 citation statements)

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“…At the macroscopic level, changes in the rates of receptor desensitization and deactivation have been reported in addition to an increase in the GABA EC 50 (concentration required to elicit a half-maximal response) (12). At the single channel level we have shown that increased single channel conductances (Ն40 pS) are associated with GABA A receptors co-expressed with GABARAP and that drugs are able to increase the conductance of these channels (9). The aim of the present study was to analyze the single channel properties of GABA A receptors co-expressed with GABARAP and to see if these newly acquired properties correlated with these receptors being organized at a higher density (i.e.…”

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confidence: 77%

“…We have, however, been able to mimic the behavior exhibited by neuronal extrasynaptic GABA A receptors in a recombinant system and change the dispersion of receptors in the membrane simply by co-expressing the trafficking protein GABARAP with GABA A receptors (9). GABARAP (GABA A receptor-associated protein) was originally identified because of its physical association with GABA A receptors following their isolation by immunoprecipitation from solubilized rat brain (10).…”

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confidence: 99%

“…Subsequent immunolocalization data and the biochemical identification of the GABARAP interaction partners has led to the suggestion that it participates in trafficking and membrane fusion events underlying organizational processes at GABAergic synapses but does not remain associated with receptors once they are inserted at the synapse (11). In heterologous expression systems, recombinant GABARAP has been shown to promote clustering of ␥ subunit-containing GABA A receptors in the plasma membrane (9,12). As a consequence of this ordered packing arrangement, the recombinant GABA A receptors function differently from receptors expressed in the absence of GABARAP.…”

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GABA Increases both the Conductance and Mean Open Time of Recombinant GABAA Channels Co-expressed with GABARAP

Luu

Gage

Tierney

2006

Journal of Biological Chemistry

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The single channel properties of recombinant ␥-aminobutyric acid type A (GABA A ) ␣␤␥ receptors co-expressed with the trafficking protein GABARAP were investigated using membrane patches in the outside-out patch clamp configuration from transiently transfected L929 cells. In control cells expressing ␣␤␥ receptors alone, GABA activated single channels whose main conductance was 30 picosiemens (pS) with a subconductance state of 20 pS, and increasing the GABA concentration did not alter their conductance. In contrast, when GABA A receptors were co-expressed with GABARAP, the GABA-activated single channels displayed multiple, high conductances (>40 pS), and GABA (>10 M) was able to increase their conductance, up to a maximum of 60 pS Inhibitory signals in human brains are mediated primarily by ␥-aminobutyric acid type A (GABA A ) 2 receptors. These ligandgated ion channels are composed of multimembrane-spanning subunits that assemble into pentamers and function by gating a pore selective for chloride ions. The targeting and organization of GABA A receptors at specific membrane locations are critical for their normal function. For example, GABA A receptors are clustered at inhibitory synapses but are also found both clustered and nonclustered at other sites on the neuronal cell surface (1, 2). These synaptic and nonsynaptic (extrasynaptic) sites reflect GABA A receptor involvement in both phasic and tonic signaling, respectively. The functional behavior of native GABA A receptors is complex. Much of the receptor's functional complexity has been attributed to its extensive structural heterogeneity as indicated by the 19 different genes identified to date (␣1-6, ␤1-3, ␥1-3, ␦, 1-3, ⑀, , and ).Recombinant GABA A receptors are different from native GABA A receptors in that they never display single channel conductances greater than 40 pS, nor do drugs modulate their conductance, properties we and others have described for native nonsynaptic (extrasynaptic) GABA A receptors (3-8). We have, however, been able to mimic the behavior exhibited by neuronal extrasynaptic GABA A receptors in a recombinant system and change the dispersion of receptors in the membrane simply by co-expressing the trafficking protein GABARAP with GABA A receptors (9). GABARAP (GABA A receptor-associated protein) was originally identified because of its physical association with GABA A receptors following their isolation by immunoprecipitation from solubilized rat brain (10). Subsequent immunolocalization data and the biochemical identification of the GABARAP interaction partners has led to the suggestion that it participates in trafficking and membrane fusion events underlying organizational processes at GABAergic synapses but does not remain associated with receptors once they are inserted at the synapse (11). In heterologous expression systems, recombinant GABARAP has been shown to promote clustering of ␥ subunit-containing GABA A receptors in the plasma membrane (9, 12). As a consequence of this ordered packing arrangement, the recombinant GABA ...

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confidence: 99%

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confidence: 99%

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GABA Increases both the Conductance and Mean Open Time of Recombinant GABAA Channels Co-expressed with GABARAP

Luu

Gage

Tierney

2006

Journal of Biological Chemistry

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“…We speculate that functional modulation of GABA A Rs by binding of structurally altered GABARAP is responsible for the RP expression. When GABARAP is expressed with GABA A R composed of ␣1, ␤2/3, and ␥2 subunits in L929 fibroblasts, both single-channel conductance and mean open time of GABA A R are increased (Everitt et al, 2004;Luu et al, 2006). Considering that the majority of GABA A R subunits expressed in a PN are ␣1, ␤2/3, and ␥2, interaction of GABARAP and GABA A R␥2 might upregulate functional properties of GABA A R in a PN.…”

Section: Role Of Gabarap In Rpmentioning

confidence: 99%

“…Among them, we attended to GABARAP, a linker protein between GABA A R and tubulin (Wang et al, 1999). The number and/or function of surface GABA A R can be regulated by GABARAP in both heterologous expression systems and neurons (Chen et al, 2000(Chen et al, , 2005Nymann-Andersen et al, 2002;Everitt et al, 2004;Leil et al, 2004;Luu et al, 2006). However, implication of GABARAP in synaptic plasticity has not been explored.…”

Section: Introductionmentioning

confidence: 99%

Sustained Structural Change of GABAA Receptor-Associated Protein Underlies Long-Term Potentiation at Inhibitory Synapses on a Cerebellar Purkinje Neuron

Kawaguchi

Hirano²

2007

Journal of Neuroscience

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Fast inhibitory synaptic transmission is predominantly mediated by GABA A receptor (GABA A R) in the CNS. Although several types of neuronal activity-dependent plasticity at GABAergic synapses have been reported, the detailed mechanism is elusive. Here we show that binding of structurally altered GABA A R-associated protein (GABARAP) to GABA A R ␥2 subunit and to tubulin is critical for long-term potentiation [called rebound potentiation (RP)] at inhibitory synapses on a cerebellar Purkinje neuron (PN). Either inhibition of GABARAP association with GABA A R␥2 or deletion of tubulin binding region of GABARAP impaired RP. Inhibition of tubulin polymerization also suppressed RP. Thus, precise regulation of GABA A R␥2-GABARAP-microtubule interaction is critical for RP. Furthermore, competitive inhibition of GABARAP binding to GABA A R␥2 after the RP establishment attenuated the potentiated response, suggesting that GABARAP is critical not only for the induction but also for the maintenance of RP. Fluorescence resonance energy transfer analysis revealed that GABARAP underwent sustained structural alteration after brief depolarization of a PN depending on the activity of Ca 2ϩ / calmodulin-dependent protein kinase II (CaMKII), which is required for the RP induction. The susceptibility of GABARAP to undergo structural alteration was abolished by an amino acid replacement in GABARAP. Furthermore, RP was impaired by expression of the mutant GABARAP with the replacement. Together, we conclude that GABA A R association with structurally altered GABARAP downstream of CaMKII activation is essential for RP.

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Benzodiazepines

Lüddens

Korpi

2007

Handbook of Contemporary Neuropharmacology

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Starting with a short overview on the pharmacology of Benzodiazepine (BZ) receptor ligands that includes aspects of their therapeutic actions, development of tolerance and dependence to BZ and their metabolism this review pays special attention to the interaction and mode of action of BZ with the various γ‐aminobutyric acid type A (GABA A ) receptors. We discuss the diversity of GABA A receptors with respect to the subunits, receptor subtypes, brain distribution and function. The functional domains on GABA A receptors needed for the recognition and action of GABA and BZ as well as those needed for assembly are described. The structure activity relations of benzodiazepines are discussed with an emphasis on GABA A receptor subtypes.

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Conductance of Recombinant GABA Channels Is Increased in Cells Co-expressing GABAA A Receptor-associated Protein

Cited by 66 publications

References 16 publications

GABA Increases both the Conductance and Mean Open Time of Recombinant GABAA Channels Co-expressed with GABARAP

GABA Increases both the Conductance and Mean Open Time of Recombinant GABAA Channels Co-expressed with GABARAP

Sustained Structural Change of GABAA Receptor-Associated Protein Underlies Long-Term Potentiation at Inhibitory Synapses on a Cerebellar Purkinje Neuron

Benzodiazepines

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