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1.
Abstract: Polyclonal antibodies were raised to the C-terminal part of the γ-aminobutyric acidA (GABAA) receptor α4-subunit. These anti-peptide α4 (517–523) antibodies specifically identified a protein with apparent molecular mass 67 kDa in rat brain membranes. This protein was enriched by immunoaffinity chromatography of brain membrane extracts on Affigel 10 coupled to the anti-peptide α4 (517–523) antibodies and could then be identified by the anti-α4-antibodies as well as by the GABAA receptor subunit-specific monoclonal antibody bd-28. This appears to indicate that the 67-kDa protein is the α4-subunit of GABAA receptors. Intact GABAA receptors appeared to be retained by the immunoaffinity column because other GABAA receptor subunit proteins like the β2/β3-subunits and the γ2-subunit were detected in the immunoaffinity column eluate. Furthermore, in addition to the 67-kDa protein, a 51-kDa protein could be detected by the antibody bd-28 and the anti-peptide α4 (517–523) antibody in the immunoaffinity column eluate. A protein with similar apparent molecular mass was identified by the α1-subunit-specific anti-peptide α1 (1–9) antibody. In contrast to the α1-subunit, the 51-kDa protein identified by the anti-α4 antibody could not be deglycosylated by N -Glycanase. The identity of the 51-kDa protein identified by the anti-α4-antibodies thus must be further investigated.  相似文献   

2.
GABAA receptors are pentameric ligand-gated ion channels that are major mediators of fast inhibitory neurotransmission. Clinically relevant GABAA receptor subtypes are assembled from α5(1-3, 5), β1-3 and the γ2 subunit. They exhibit a stoichiometry of two α, two β and one γ subunit, with two GABA binding sites located at the α/β and one benzodiazepine binding site located at the α/γ subunit interface. Introduction of the H105R point mutation into the α5 subunit, to render α5 subunit-containing receptors insensitive to the clinically important benzodiazepine site agonist diazepam, unexpectedly resulted in a reduced level of α5 subunit protein in α5(H105R) mice. In this study, we show that the α5(H105R) mutation did not affect cell surface expression and targeting of the receptors or their assembly into macromolecular receptor complexes but resulted in a severe reduction of α5-selective ligand binding. Immunoprecipitation studies suggest that the diminished α5-selective binding is presumably due to a repositioning of the α5(H105R) subunit in GABAA receptor complexes containing two different α subunits. These findings imply an important role of histidine 105 in determining the position of the α5 subunit within the receptor complex by determining the affinity for assembly with the γ2 subunit.  相似文献   

3.
Abstract: Sequence variation was found in cDNA coding for the extracellular domain of the rat γ-aminobutyric acid type A (GABAA) receptor α6 subunit. About 20% of polymerase chain reaction (PCR)-amplified α6 cDNA prepared from rat cerebellar mRNA lacked nucleotides 226–255 as estimated by counting single-stranded phage plaques hybridized specifically to the short (α6S) and long (wild-type) forms of the α6 mRNA. Genomic PCR revealed an intron located upstream of the 30-nucleotide sequence. Both splice forms were detected in the cerebellum by in situ hybridization. Recombinant receptors, resulting from coexpression of the α6S subunit with the GABAA receptor β2 and γ2 subunits in human embryonic kidney 293 cells, were inactive at binding [3H]muscimol and [3H]Ro 15-4513. In agreement, injection of complementary RNAs encoding the same subunits into Xenopus oocytes produced only weak GABA-induced currents, indistinguishable from those produced by β2γ2 receptors. Therefore, the 10 amino acids encoded by the 30-nucleotide fragment may be essential for the correct assembly or folding of the α6 subunit-containing receptors.  相似文献   

4.
Abstract: Molecular cloning has revealed that there are six classes of subunits capable of forming GABA-gated chloride channel receptors. GABAA receptors are composed of α, β, γ, δ, and ε/χ subunits, whereas GABAC receptors appear to contain ρ subunits. However, retinal cells exhibiting GABAC responses express α, β, and ρ subunits, raising the possibility that GABAC receptors may be a mixture of subunit classes. Using in vitro translated protein, we determined that human GABAA receptor subunits α1, α5, and β1 did not coimmunoprecipitate with full-length ρ1, ρ2, or the N-terminal domain of ρ1 that contains signals for ρ-subunit interaction. To explore the molecular mechanism underlying these apparently exclusive combinations, chimeric subunits were created and tested for interaction with the wild-type subunits. Transfer of the N terminus of β1 to ρ1 created a β1ρ1 chimera that coimmunoprecipitated with the α1 subunit but not with the ρ2 subunit. Furthermore, exchanging the N terminus of the ρ1 subunit with the corresponding region of β1 produced a ρ1β1 chimera that interfered with ρ1 receptor expression in Xenopus oocytes, whereas the full-length β1 subunit had no effect. Together, these results indicate that sequences in the N termini direct assembly of ρ subunits and GABAA subunits into GABAC and GABAA receptors, respectively.  相似文献   

5.
Abstract: Recombinant GABAA receptors, expressed from α-, β-, and γ2-subunits, are diazepam-insensitive when the α-subunit is either α4 or α6. In situ, diazepam-insensitive receptors containing the α6-subunit are almost exclusively expressed in the granule cell layer of the cerebellum. However, diazepam-insensitive receptors are also expressed in forebrain areas. Here, we report on the presence of diazepam-insensitive GABAA receptors in various brain areas containing the α4-subunit. GABAA receptors immunoprecipitated with a newly developed α4-subunit-specific antiserum displayed a drug binding profile that was indistinguishable from those of α4β2γ2-recombinant receptors and diazepam-insensitive [3H]Ro 15-4513 binding sites in rat brain membranes. In addition, α4-subunit containing receptors and forebrain diazepam-insensitive receptors are present at comparably low abundance in rat brain and exhibit virtually identical patterns of distribution. Analysis of the subunit architecture of α4-subunit containing receptors revealed that the α4-subunit contributes to several receptor subtypes. Depending on the brain region, the α4-subunit can be coassembled with a second type of α4-subunit variant being α1, α2, or α3. The data demonstrate that native receptors containing the α4-subunit are structurally heterogeneous, expressed at very low abundance in the brain, and display the drug binding profile of diazepam-insensitive [3H]Ro 15-4513 binding sites. Pharmacologically, these receptors may contribute to the actions of nonclassical ligands such as Ro 15-4513 and bretazenil.  相似文献   

6.
Abstract: The expression of six mRNA species (α2, α3, α5, β2, β3, and γ2) encoding for GABAA receptor subunits was followed in cultured early postnatal cortical neurons by in situ hybridization histochemistry. In untreated control cultures it was found that these subunit mRNA expression profiles closely follow those seen during development in vivo. α3, α5, and β3 subunit expression declined, α2 expression increased, whereas β2 and γ2 subunit mRNA expression remained relatively constant. To test the hypothesis that GABAA receptor stimulation regulates these expression profiles, we tested the effect of a GABAA receptor positive modulator, allopregnanolone, and a GABAA receptor noncompetitive antagonist, tert -butylbicyclophosphorothionate (TBPS). It was found that allopregnanolone augmented the rate at which the α3, α5, or β3 subunit mRNA expression declined and prevented the increase in α2 subunit mRNA expression. As well, allopregnanolone down-regulated β2 subunit mRNA expression. TBPS, on the other hand, up-regulated α3, α5, β2, and β3 subunit mRNA expression. It also down-regulated the expression of α2 subunit mRNA. Both allopregnanolone and TBPS had no effect on γ2 subunit mRNA expression. These results imply that the developmental switchover of GABA receptor subunit mRNA expression is regulated by GABAA receptor activity.  相似文献   

7.
Abstract: Polyclonal antibodies were raised to synthetic peptides having amino acid sequences corresponding with the N- or C-terminal part of the γ-aminobutyric acidA (GABAA) receptor α5-subunit. These anti-peptide α5(2–10) or anti-peptide α5(427–433) antibodies reacted specifically with GABAA receptors purified from the brains of 5–10-day-old rats in an enzyme-linked immunosorbent assay and were able to dose-dependently immunoprecipitate up to 6.3 or 13.1% of the GABAA receptors present in the incubation, respectively. In immunoblots, each of these antibodies reacted with the same two protein bands with apparent molecular mass of 53 or 57 kDa. After exhaustive treatment of purified GABAA receptors with N -Glycanase, each of these antibodies identified two proteins with apparent molecular masses of 46 and 48 kDa. Additional treatment of GABAA receptors with neuraminidase and O -Glycanase resulted in an apparently single protein with molecular mass of 47 kDa, which again was identified by both the anti-peptide α5(2–10) and the anti-peptide α5(427–433) antibody. These results indicate the existence of at least two different α5-sub-units of the GABAA receptor that differ in their carbohydrate content. In contrast to other α- or β-subunits of GABAA receptors so far investigated, at least one of these two α5-subunits contains O-linked carbohydrates.  相似文献   

8.
Abstract: The γ2 subunit of the GABAA receptor (GABAA-R) is alternatively spliced. The long variant (γ2L) contains eight additional amino acids that possess a consensus sequence site for protein phosphorylation. Previous studies have demonstrated that a peptide or fusion protein containing these eight amino acids is a substrate for protein kinase C (PKC), but not cyclic AMP-dependent protein kinase A (PKA)-stimulated phosphorylation. We have examined the ability of PKA, PKC, and Ca2+/calmodulin-dependent protein kinase (CAM kinase II) to phosphorylate a synthetic peptide corresponding to residues 336–351 of the intracellular loop of the γ2L subunit and inclusive of the alternatively spliced phosphorylation consensus sequence site. PKC and CAM kinase II produced significant phosphorylation of this peptide, but PKA was ineffective. The K m values for PKC-and CAM kinase II-stimulated phosphorylation of this peptide were 102 and 35 μM , respectively. Maximal velocities of 678 and 278 nmol of phosphate/min/mg were achieved by PKC and CAM kinase II, respectively. The phosphorylation site in the eight-amino-acid insert of the γ2L subunit has been shown to be necessary for ethanol potentiation of the GABAA-R. Thus, our results suggest that PKC, CAM kinase II, or both may play a role in the effects of ethanol on GABAergic function.  相似文献   

9.
Abstract: Using receptors expressed from mouse brain mRNA in Xenopus oocytes, we found that enhancement of type A γ-aminobutyric acid (GABAA) receptor-gated Cl channel response is a common action of structurally diverse anesthetics, suggesting that the GABAA receptor plays an important role in anesthesia. To determine if GABAA receptor subunit composition influences actions of anesthetics, we expressed subunit cRNAs in Xenopus oocytes and measured effects of enflurane on GABA-activated Cl currents. Potentiation of GABA-activated currents by enflurane was dependent on the composition of GABAA receptor protein subunits; the order of sensitivity was α1β1 > α1β1γ2s1β1γ2L > total mRNA. The results suggest that anesthetics with simple structures may act on the GABAA receptor protein complex to modulate the Cl channel activity and provide a molecular explanation for the synergistic clinical interactions between benzodiazepines and general anesthetics.  相似文献   

10.
Abstract: Developmental changes in the pharmacological properties of the GABAA receptor have been suggested to result from changes in the subunit composition of the receptor complex. The nicotinic acetylcholine receptor is structurally related to the GABAA receptor and undergoes a developmental subunit switch at the neuromuscular synapse. To examine the mechanistic similarities between these systems we sought to find whether the changes in GABAA receptor subunits are controlled by changes in messenger RNA levels, as they are for the nicotinic acetylcholine receptor. We found a 10-fold increase in the level of α1-subunit mRNA, and a small increase in levels of GABAA/benzodiazepine receptors from day 1 to day 24 of rat cerebellar development. We also found that the levels of α1-subunit mRNA were higher than the levels of mRNA encoding other α subunits at all developmental time points. The low levels of messenger RNA for α2, α3, and α5 subunits are inconsistent with the high levels of type II benzodiazepine binding in the rat cerebellum at birth because these α subunits have been shown to form GABAA receptors with type II benzodiazepine binding. These findings are inconsistent with simple models that would explain the developmental differences in GABAA receptor pharmacology simply as a result of changes in α-subunit gene expression.  相似文献   

11.
Abstract: Tolerance to and withdrawal from pentobarbital were induced in rats by continuous intracerebroventricular infusion via subcutaneously implanted osmotic minipumps. In situ hybridization of GABAA receptor α1- and β3-subunit mRNA was conducted using synthetic 3'- end 35S-dATP-labeled oligodeoxynucleotide probes. Results were quantified by film densitometry. In animals that were tolerant to pentobarbital, levels of α1-subunit mRNA were decreased in hippocampus, superior colliculus, and inferior colliculus, but levels of β3-subunit mRNA were not affected. Dramatically increased levels of GABAA receptor subunit mRNA were observed in animals 24 h after withdrawal from chronic pentobarbital treatment. These increases occurred in cerebral cortex and cerebellum for the α1 subunit and in cerebral cortex only for the β3-subunit. These data provide further support to the structural and pharmacological GABAA receptor heterogeneity in discrete brain areas. The observed changes of subunit expression may underlie, at least in part, the receptor up- and down-regulation observed in receptor ligand binding studies.  相似文献   

12.
Abstract: The pentameric subunit composition of a large population (36%) of the cerebellar granule cell GABAA receptors that show diazepam (or clonazepam)-insensitive [3H]Ro 15-4513 binding has been determined by immunoprecipitation with subunit-specific antibodies. These receptors have α6, α1, γ2S, γ2L, and β2 or β3 subunits colocalizing in the same receptor complex.  相似文献   

13.
Abstract: This study examined γ-aminobutyric acidA (GABAA) receptor function in cultured rat cerebellar granule cells by using microphysiometry following chronic flunitrazepam exposure, and correlated the findings with the α1 and β2/3 subunit protein expression and [3H]muscimol binding after the same treatment paradigm. Flunitrazepam treatment reduced ( p < 0.05) the maximal GABA-stimulated increase in extracellular acidification rate ( E max) (16.5 ± 1.2% and 11.3 ± 1.0%, 2-day control and treated cells, respectively; 17.4 ± 1.0% and 9.9 ± 0.7%, 7-day control and treated cells, respectively; best-fit E max± SEM, n = 7), without affecting the GABA concentration required to elicit 50% of maximal response (EC50) (1.2 ± 1.7 and 2.3 ± 1.8 µ M , 2-day control and treated cells, respectively; 1.7 ± 1.5 and 1.5 ± 1.5 µ M , 7-day control and treated cells, respectively; best-fit EC50± SEM, n = 7). Flunitrazepam exposure also abolished the flunitrazepam potentiation of the GABA response, caused a transient reduction of the GABAA receptor α1 and β2/3 subunit proteins over the initial 2 days, but did not alter [3H]muscimol binding compared with vehicle-treated cells. The results suggest that changes in GABAA receptor subunit protein expression, rather than loss of [3H]muscimol binding sites, underlie the chronic flunitrazepam-mediated desensitisation of GABAA receptor function.  相似文献   

14.
Abstract: The large intracellular loop (IL) of the γ2 subunit of the cloned human γ-aminobutyric acidA (GABAA) receptor (γ2IL) was expressed in bacteria as glutathione- S -transferase and staphylococcal protein A fusion proteins. Mice were immunized with the fusion proteins (one protein per animal), and monoclonal antibodies were obtained. Six monoclonal antibodies reacted with the γ2IL moiety of the fusion proteins. Three of these monoclonal antibodies also immunoprecipitated a high proportion of the GABAA/benzodiazepine receptors from bovine and rat brain and reacted with a wide 44,000–49,000-Mr peptide band in immunoblots of affinity-purified GABAA receptors. These monoclonal antibodies are valuable reagents for the molecular characterization of the GABAA receptors in various brain regions.  相似文献   

15.
Abstract: In the olfactory bulb, muscarinic receptors exert a bimodal control on cyclic AMP, enhancing basal and Gs-stimulated adenylyl cyclase activities and inhibiting the Ca2+/calmodulin- and forskolin-stimulated enzyme activities. In the present study, we investigated the involvement of G protein βγ subunits by examining whether the muscarinic responses were reproduced by the addition of βγ subunits of transducin (βγt) and blocked by putative βγ scavengers. Membrane incubation with βγt caused a stimulation of basal adenylyl cyclase activity that was not additive with that produced by carbachol. Like carbachol, βγt potentiated the enzyme stimulations elicited by vasoactive intestinal peptide and corticotropin-releasing hormone. RT-PCR analysis revealed the expression of mRNAs encoding both type II and type IV adenylyl cyclase, two isoforms stimulated by βγ synergistically with activated Gs. In addition, βγt inhibited the Ca2+/calmodulin- and forskolin-stimulated enzyme activities, and this effect was not additive with that elicited by carbachol. Membrane incubation with either one of two βγ scavengers, the GDP-bound form of the α subunit of transducin and the QEHA fragment of type II adenylyl cyclase, reduced both the stimulatory and inhibitory effects of carbachol. These data provide evidence that in rat olfactory bulb the dual regulation of cyclic AMP by muscarinic receptors is mediated by βγ subunits likely acting on distinct isoforms of adenylyl cyclase.  相似文献   

16.
Abstract: Most general anesthetics produce two distinct actions at GABAA receptors. Thus, these drugs augment GABA-gated chloride currents (referred to as an indirect action) and, at higher concentrations, elicit chloride currents in the absence of GABA (referred to as a direct action). Because a β subunit appears to be required for the direct action of intravenous anesthetics in recombinant GABAA receptors, site-directed mutagenesis of the β3 subunit was performed to identify amino acid residues that are critical for this action. In HEK293 cells expressing a prototypical GABAA receptor composed of α1β3γ2 subunits, mutation of amino acid 290 from Asn to Ser dramatically reduced both etomidate-induced chloride currents and its ability to stimulate [3H]flunitrazepam binding. By contrast, the ability of etomidate to augment GABA-gated chloride currents and GABA-enhanced [3H]flunitrazepam binding was retained. The demonstration that the direct, but not the indirect, actions of etomidate are dependent on β3(Asn290) indicates that the dual actions of this intravenous anesthetic at GABAA receptors are mediated via distinct loci.  相似文献   

17.
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19.
Abstract: Some data on the concentration range of response and the concentration for half-response (EC50) of γ-aminobutyric acid (GABA) for the GABAA receptor are reviewed and compared. An analysis of the 36CI flux assay demonstrates that both the EC50 and the slope of a Hill plot depend on the ion influx or efflux assay time. The effects of depletion of the 36CI concentration gradient during the assay and of receptor desensitization on the result for a range of assay times are considered. The EC50 can be decreased by orders of magnitude by increasing the assay time. The EC50 measured in a finite time is less than the half-response concentration for the response(s) of the receptor. The extent of this difference depends on the receptor concentration per internal volume. The maximal decrease of EC50 depends on the rate of receptor desensitization. The computer simulations showed that a GABAA receptor with a half-response concentration of 100 μ M GABA can give 36CI flux measurements with an EC50 value 100-fold lower.  相似文献   

20.
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