Modulatory Action of Taurine on the Release of GABA in Cerebellar Slices of the Guinea Pig

Abstract: For the purpose of demonstrating the action of taurine as a neuromodulator in addition to its suggested neurotransmitter function, the effects of taurine and muscimol on the depolarization-induced Ca-dependent release of [³H]γ-aminobutyric acid (pH]GABA) and l -[³H]glutamate in cerebellar slices from guinea pigs were investigated. The release of [³H]GABA was found to be greatly decreased by a GABA agonist, muscimol, and by taurine, but not by glycine. The release of l -[³H]glutamate was little affected by taurine. The release of [³H]GABA was enhanced by bicuculline and strychnine, but not by picrotoxin, and the suppressive action of muscimol on the GABA release was antagonized by bicuculline, picrotoxin, and strychnine, suggesting the possible existence of presynaptic autoreceptors for GABA in the cerebellum. The suppressive action of taurine on the release of [³H]GABA, on the other hand, was blocked only by bicuculline. These results suggest that taurine reduced the release of [³H]GABA from cerebellar slices by acting on the GABA autoreceptors or, more likely, on other types of receptors that are sensitive to bicuculline. As a possible mechanism for this modulatory action of taurine, the blockade by this amino acid of the influx of Ca²⁺ into cerebellar tissues was tentatively suggested.     

The interaction of porphyrin precursors with GABA receptors in the isolated frog spinal cord.

Both delta aminolevulinic acid (ALA) and porphobilinogen (PBG) depressed spontaneous activity in the isolated hemisected frog spinal cord. ALA was approximately one fifth as potent as GABA in this respect and had a much slower time course. ALA hyperpolarized motoneurones and this effect was blocked by the GABA antagonist, picrotoxin, but not by the glycine antagonist, strychnine. ALA also depolarized primary afferents and this effect was similar to that of GABA although its action was somewhat reduced by strychnine. These results suggest that ALA activates the GABA receptors on motoneurones and primary afferents. The possible significance of these results to the clinical manifestations of acute attacks of porphyria is discussed.     

Primitive nervous systems: action of aminergic drugs and blocking agents on activity in the ventral nerve cord of the flatworm Notoplana acticola.

Electrically evoked activity in the submuscular ventral longitudinal nerve cords of Notoplana acticola is depressed by GABA and glycine in the presence of high magnesium concentrations. This inhibition occurs with 0.001--0.01 millimolar concentrations of these putative aminergic neurotransmitters and is reversible when washed out. The action of GABA and glycine was reversed nonspecifically by picrotoxin, bicuculline, and strychnine. PTZ (Pentylenetetrazole) was shown to mimic the effects that these blocking agents had on evoked activity when they were tested alone. The release of inhibition by these blocking agents is similar to that of decerebration. Three possible mechanisms responsible for synaptic activity in high Mg2+ concentrations are discussed and the possibility that the effector site of interaction may be the chloride ionophore is explored.     

Primitive nervous systems: Action of aminergic drugs and blocking agents on activity in the ventral nerve cord of the flatworm Notoplana acticola

Electrically evoked activity in the submuscular ventral longitudinal nerve cords of Notoplana acticola is depressed by GABA and glycine in the presence of high magnesium concentrations. This inhibition occurs with 0.001–0.01 millimolar concentrations of these putative aminergic neurotransmitters and is reversible when washed out. The action of GABA and glycine was reversed nonspecifically by picrotoxin, bucuculline, and strychnine. PTZ (Pentylenetetrazole) was shown to mimic the effects that these blocking agents had on evoked activity when they were tested alone. The release of inhibition by these blocking agents is similar to that of decerebration. Three possible mechanisms responsible for synaptic activity in high Mg²⁺ concentrations are discussed and the possibility that the effector site of interaction may be the chloride ionophore is explored.     

Spinal GABA(A) receptors do not mediate the sympathetic baroreceptor reflex in the rat

Activation of baroreceptors causes efferent sympathetic nerve activity (SNA) to fall. Two mechanisms could account for this sympathoinhibition: disfacilitation of sympathetic preganglionic neurons (SPN) and/or direct inhibition of SPN. The roles that spinal GABA and glycine receptors play in the baroreceptor reflex were examined in anesthetized, paralyzed, and artificially ventilated rats. Spinal GABA(A) receptors were blocked by an intrathecal injection of bicuculline methiodide, whereas glycine receptors were blocked with strychnine. Baroreceptors were activated by stimulation of the aortic depressor nerve (ADN), and a somatosympathetic reflex was used as control. After an intrathecal injection of vehicle, there was no effect on any measured variable or evoked reflex. In contrast, bicuculline caused a dose-dependent increase in arterial pressure, SNA, phrenic nerve discharge, and it significantly facilitated the somatosympathetic reflex. However, bicuculline did not attenuate either the depressor response or sympathoinhibition evoked after ADN stimulation. Similarly, strychnine did not affect the baroreceptor-induced depressor response. Thus GABA(A) and glycine receptors in the spinal cord have no significant role in baroreceptor-mediated sympathoinhibition.     

Pharmacologically induced changes in the latency of digastric reflexes in 1-7 day old rabbits

1. The naturally occurring change in latency of the digastric reflex from long (40-70 msec) to short (15-35 msec) in the first week of life was studied in rabbits using drugs known to affect GABAergic and glycinergic transmission. 2. Usually the long or the short latency reflex response appeared alone but after strychnine both appeared together. 3. The long latency responses were favoured by the GABA blockers bicuculline and picrotoxin; periodically rhythmic activity was also elicited. 4. The short latency responses were favoured by the GABA agonists pentobarbitone and diazepam.     

The effect of strychnine, bicuculline, and picrotoxin on X and Y cells in the cat retina

The effect of intravenous strychnine and the GABA antagonists picrotoxin and bicuculline upon the discharge pattern of center-surround-organized cat retinal ganglion cells of X and Y type were studied. Stimuli (mostly scotopic, and some photopic) were selected such that responses from both on and off-center cells were either due to the center, due to the surround, or clearly mixed. Pre-drug control responses were obtained, and their behavior following administration of the antagonists was observed for periods up to several hours. X-cell responses were affected in a consistent manner by strychnine while being unaffected by GABA antagonists. All observed changes following strychnine were consistent with a shift in center-surround balance of X cells in favor of the center. For Y-cell responses to flashing annuli following strychnine, there was either no shift or a relatively small shift in center-surround balance. Compared to X-cell responses to flashing lights, those of Y cells were very little affected by strychnine and in most cases were unaffected. It thus appears that glycine plays a similar role in receptive field organization of X cells as does GABA in Y cells (Kirby and Enroth-Cugell, 1976. J. Gen. Physiol. 68:465-484).     

GABA antagonists potentiate the cardioinhibitory reflex induced by capsaicin in the cat

The GABA antagonists picrotoxin (PX) and bicuculline (BIC) were given intravenously (i.v.) or applied topically to the region of the nucleus of the solitary tract (NTS) in intact or in precollicularly decerebrate cats under chloralose-urethane anaesthesia, and their effects on capsaicin (CAP)-induced reflex bradycardia were studied. The administration of PX or BIC was found to result in a decrease of the resting heart rate and a significant increase of the cardioinhibitory reflex evoked by CAP. The maximum effects of these GABA antagonists developed within 3-10 min and lasted for about 40-60 min. Neither the resting heart rate nor the response to CAP was affected by strychnine. It is concluded that the CAP-sensitive unmyelinated barosensory afferents and/or the interneurons in the NTS are under a tonically active GABA-ergic inhibitory control originating in the brain stem.     

Evidence that glycine and GABA mediate postsynaptic inhibition of bulbar respiratory neurons in the cat.

Experiments were carried out on decerebrate cats to identify transsynaptic mediators of spontaneous postsynaptic inhibition of bulbar inspiratory and postinspiratory neurons. Somatic membrane potentials were recorded through the central micropipette of a coaxial multibarreled electrode. Blockers of type A gamma-aminobutyric acid (GABA-A) and glycine receptors were iontophoresed extracellularly from peripheral micropipettes surrounding the central pipette. Effective antagonism was demonstrated by iontophoresis of agonists with antagonists; application of strychnine antagonized the action of glycine but not GABA, and application of bicuculline antagonized the action of GABA but not glycine. In both types of neurons, iontophoresis of either antagonist depolarized the somatic membrane and increased input resistance throughout the respiratory cycle. Bicuculline preferentially depolarized the somatic membrane in both types of neurons during inactive phases. Strychnine increased the firing rate of inspiratory neurons during inspiration despite maintenance of somatic membrane potential at preiontophoresis levels. Tetrodotoxin reduced the effects of iontophoresed bicuculline and strychnine, suggesting that the action of the antagonists required presynaptic axonal conduction. The present results suggest that presynaptic release of both GABA and glycine contributes to tonic postsynaptic inhibition of bulbar respiratory neurons. GABA-A receptors appear to contribute to inhibition during inactive phases in inspiratory and postinspiratory neurons, whereas glycinergic mechanisms appear to contribute to inspiratory inhibition in inspiratory neurons.     

Characteristics of GABA receptors on the ocellar L-neurons of American cockroach Periplaneta americana

The ocellar L-neurons of cockroach Periplaneta americana were used in the present study as model systems to investigate the pharmacological properties of the GABA receptors. To do so, a glass microelectrode was impaled into the axon of the L-neurons to record the membrane potential intracellularly and to monitor membrane response to GABA treatment and cercal stimulation by air puff. The traditional GABA and their receptor agonists were introduced through perfusion and/or iontophoresis to monitor their effects on the L-neurons. The GABA receptor antagonists were administered by perfusion to examine if the response of the L-neurons to GABA and/or cercal stimulation was changed. The results revealed that administration of GABA, muscimol and imidazole acetic acid, two GABAA agonists, produced depolarization on the L-neurons. However, treatment of 3-APS and guanidine acetic acid, another two GABAA agonists, evoked hyperpolarization on the L-neurons. Among those tested antagonists, only picrotoxin, GABAA antagonist, antagonize the depolarization induced by GABA and/or cercal stimulation. More interestingly, administration of strychnine, glycine receptor antagonist, largely attenuated the depolarization response of the L-neurons to cercal stimulation. This attenuation caused by strychnine was even stronger than that initiated by varied GABA antagonists. In addition, phaclofen, a GABAB receptor antagonist, showed no antagonistic effect. These results strongly suggest that the characteristics of GABA receptors of the ocellar L-neurons may differ from those in vertebrates. It may be more likely to be a novel GABA receptor.     

Glycine Antagonists Structurally Related to 4,5,6,7-Tetrahydroisoxazolo[5,4-c]pyridin-3-ol Inhibit Binding of [3H]Strychnine to Rat Brain Membranes

[3H]Strychnine binding to rat pons + medulla membranes was used as a measure of glycine receptors or glycine receptor-coupled chloride channels in vitro. A series of compounds structurally related to 4,5,6,7-tetrahydroisoxazolo[5,4-c]pyridin-3-ol (THIP), which previously were shown to antagonize glycine responses in cat spinal cord, inhibited [3H]strychnine binding in micromolar concentrations. The most potent of these glycine antagonists, 5,6,7,8-tetrahydro-4H-isoxazolo[3,4-d]azepin-3-ol (iso-THAZ), was also the most potent inhibitor of [3H]strychnine binding, with a Ki of 1,400 nM. The Ki value for strychnine was 7.0 nM, whereas the Ki value for the mixed gamma-aminobutyric acid (GABA)/glycine antagonist 3 alpha-hydroxy-16-imino-5 beta-17-aza-androstan-11-one (RU 5135) was only 4.6 nM. Sodium chloride (1,000 mM) enhanced the affinity of strychnine, brucine, isostrychnine, and the nonselective GABA antagonist pitrazepin for [3H]strychnine binding sites, whereas the affinities of glycine, beta-alanine, and taurine were reduced. These sodium chloride shifts, however, were not predictive of antagonist or agonist properties, since the sodium chloride shift for the glycine antagonist iso-THAZ and of the other THIP-related antagonists were similar to those of the glycine-like agonists. The various sodium chloride shifts show that different groups of ligands bind to glycine receptor sites in different ways.     

Stress-Induced Enhancement of Suppression of [3H]GABA Release from Striatal Slices by Presynaptic Autoreceptor

The effect of cold and immobilization stress on presynaptic GABAergic autoreceptors was examined using the release of [3H]GABA (gamma-aminobutyric acid) from slices of rat striatum. It was found that in vitro addition of delta-aminolevulinic acid, as well as GABA agonists such as muscimol and imidazoleacetic acid, exhibited a significant suppression of the striatal release of [3H]GABA evoked by the addition of high potassium, whereas delta-aminovaleric acid had no significant effects on the evoked release. These suppressive actions were antagonized invariably by the GABA antagonists, bicuculline and picrotoxin, but not by the glycine antagonist, strychnine. Cholinergic agonists, such as pilocarpine and tetramethylammonium, also attenuated significantly the evoked release of [3H]GABA from striatal slices, while none of its antagonists, including atropine, hexamethonium and d-tubocurarine, affected the release. On the other hand, in vitro addition of dopamine receptor agents such as dopamine, apomorphine, and haloperidol, or the inhibitory amino acids, glycine, beta-alanine, and taurine failed to influence the evoked release of [3H]GABA from striatal slices. Application of a cold and immobilization stress for 3 h was found to induce a significant enhancement of the suppressive effects by muscimol and delta-aminolevulinic acid on the evoked release of [3H]GABA, without affecting that by pilocarpine and tetramethylammonium. These results suggest that the release of GABA from striatal GABA neurons may be regulated by presynaptic autoreceptors for this neuroactive amino acid, and may play a significant functional role in the exhibition of various symptoms induced by stress.     

Temporal properties of dual-peak responses of mouse retinal ganglion cells and effects of inhibitory pathways

Dual-peak responses of retinal ganglion cells (RGCs) are observed in various species, previous researches suggested that both response peaks were involved in retinal information coding. In the present study, we investigated the temporal properties of the dual-peak responses recorded in mouse RGCs elicited by spatially homogeneous light flashes and the effect of the inhibitory inputs mediated by GABAergic and/or glycinergic pathways. We found that the two peaks in the dual-peak responses exhibited distinct temporal dynamics, similar to that of short-latency and long-latency single-peak responses respectively. Pharmacological studies demonstrated that the application of exogenous GABA or glycine greatly suppressed or even eliminated the second peak of the cells’ firing activities, while little change was induced in the first peak. Co-application of glycine and GABA led to complete elimination of the second peak. Moreover, application of picrotoxin or strychnine induced dual-peak responses in some cells with transient responses by unmasking a second response phase. These results suggest that both GABAergic and glycinergic pathways are involved in the dual-peak responses of the mouse RGCs, and the two response peaks may arise from distinct pathways that would converge on the ganglion cells.     

Mechanisms of GABA- and Glycine-Induced Increases of Cytosolic Ca2+ Concentrations in Chick Embryo Ciliary Ganglion Cells

Abstract: We used fura-2 microfluorometry and the gramicidin-perforated patch clamp technique in an attempt to clarify the mechanisms underlying the GABA-and glycine-induced increases in the cytosolic Ca²⁺ concentration ([Ca]_in) in acutely isolated chick embryo ciliary ganglion neurons. GABA, glycine, and isoguvacine, but not baclofen, increased [Ca]_in in a dose- and a Ca²⁺-dependent manner. The GABA-induced [Ca]_in increase was inhibited by bicuculline and picrotoxin, and potentiated by pentobarbital, flunitrazepam, and alphaxalone, whereas the glycine-induced [Ca]_in increase was inhibited by strychnine but not by bicuculline or picrotoxin. L-and N-type Ca²⁺ channel blockers inhibited the GABA-and glycine-induced [Ca]_in increases, whereas Bay K-8644 potentiated these responses. These responses were also substantially potentiated by blockers of various K⁺ channels and by lowering the external Cl⁻ concentrations. The high KCI- and nicotine-induced [Ca]_in increases were substantially reduced during continuous stimulation with either 2 µ M GABA or 1 m M glycine. Electrophysiological studies indicated that the reversal potential of the GABA-induced current exhibited a more depolarized value than the resting membrane potential in 17 of the 25 cells examined. Taken together, these results suggest that both GABA and glycine depolarize the membrane potentials by increasing Cl⁻ conductance via respective receptors and thus increase the Ca²⁺ influxes through L- and N-type voltage-dependent Ca²⁺ channels.     

褪黑素受体与GABAA受体在褪黑素延长小鼠睡眠时间中的作用

目的：研究褪黑素受体和GABAA受体在褪黑素延长小鼠睡眠时间中的作用。方法：以翻正反射消失为睡眠开始的指标,至翻正反射恢复作为睡眠时间。观察不同受体激动剂或拮抗剂对褪黑素催眠作用的影响。结果：褪黑素3型受体拮抗剂盐酸哌唑嗪对褪黑素延长小鼠睡眠时间的作用无明显影响。GABA受体内源性激动剂GABA能明显增强褪黑素延长小鼠睡眠时间的作用,而GABAA受体上的印防己毒素结合位点的配基,即氯离子通道阻断剂印防己毒素能明显拮抗褪黑素的催眠作用,GABAA受体上的GABA结合位点的拮抗剂荷包牡丹碱则对褪黑素延长小鼠睡眠作用无明显影响。结论：褪黑素延长小鼠睡眠时间的作用与褪黑素3型受体无关,而与GABAA受体关系密切,其作用主要由印防己毒素结合位点介导。     

Three types of miniature inhibitory potentiaes in the frog spinal cord motoneurons: the possibility of GABA and glycine co-release

Miniature inhibitory postsynaptic potentials (mlPSPs) were recorded from motoneurons of the frog isolated spinal cord after blocking action potentials and ionotropic glutamate receptors (TTX 1 mcm: CNQX 25 mcm, D-AP5 50 mcm). Three types of mlPSPs were selected by their time characteristics) fast, slow and mlPSPs with two decay time constants. We classified 8.7% of mlPSPs as dual-component, 64.5% as fast mlPSPs, and 26.8% as slow mlPSPs. The GABA(A)R blocker bicuculline (20 mcm) diminished the number of the slow and dual-component events while the number of mlPSP with a fast kinetics was increased. The GlyR antagonist strychnine (1 mcm) reduced the frequency of fast mlPSPs and increased this parameter of slow mlPSPs. These data suggest existence of three different mlPSP groups distinguished by their kinetics and sensitivity to receptor antagonists: fast events mediated by glycine, slow events mediated by GABA and dual-component mlPSPs corresponding to glycine and GABA co-release.     

甘氨酸和γ-氨基丁酸对小鼠游离脊髓的初级传入终末兴奋性的作用

本工作在正常离体小鼠(天龄10—15d)脊髓进行。实验结果表明:电刺激邻近记录电极的背根,微电泳GABA及GABA的协同剂Thip、Thiomuscimol和甘氨酸(Glycine)均能引起小鼠脊髓单一初级传入纤维终末的兴奋阈值下降,兴奋性增高,说明终末发生了去极化的变化。同时电泳荷包牡丹碱(Bicuculline)能逆转GABA及其协同剂的去极化作用,但对Glycine的去极化作用无效。而士的宁(Strychnine)能逆转Glycine的去极化作用,对GABA的去极化作用无效。说明在小鼠脊髓初级传入终末存在GABA_A受体及Glycine受体,而且在传入终末区Glycine受体类型可能与脊髓内其它部位的相同。     

Effect of Ethanol on γ-Aminobutyric Acid and Glycine Receptor-Coupled Cl− Fluxes in Rat Brain Synaptoneurosomes

Chloride fluxes in synaptoneurosomes in response to additions of gamma-aminobutyric acid, glycine, and ethanol were measured using a chloride-sensitive fluorescent probe 6-methoxy-N-(3-sulfopropyl)quinolinium (SPQ). The Cl- gradient was directed outward by bathing cells in a medium low in Cl- concentration. The synaptoneurosomes responded to both gamma-aminobutyric acid and glycine by outflow of Cl- ions, as judged from an increase in SPQ fluorescence. These effects were inhibited by picrotoxin and strychnine, respectively. Ethanol also produced an outflow of Cl- ions from the synaptoneurosomes. Both picrotoxin and strychnine inhibited this effect. When the antagonists were used together, the inhibiting effect was additive. These results indicate that ethanol affects both gamma-aminobutyric acid and glycine receptor-linked chloride fluxes in the rat brain.     

Effect of various amino acids and their antagonists on the cholinergic tremor and acetylcholine release in the CNS of the rat]

Glycine and GABA administered intraventricularly and intrastriatally were found to inhibit the oxotremorin tremor in rats. The two amino acids reduce both the spontaneous release of acetylcholine into the ventricle and the discharge measured under oxotremorin treatment. The inhibition of the tremor and of acetylcholine release can be blocked by amino acid antagonists (strychnine and picrotoxin), whose effects are not specific for one of these amino acids; this action can be interpreted as effect of interference with other central transmission systems. Structures located close to the ventricles (nigrostriatal path ways) are discussed as possible points of action.     

BN52021, a platelet activating factor antagonist, is a selective blocker of glycine-gated chloride channel

We have found that the platelet activating factor antagonist (BN52021) is an effective blocker of the glycine (Gly) receptor-mediated responses in the hippocampal pyramidal neurons of rat. Using the whole-cell voltage clamp and concentration clamp recording techniques, we investigated the mechanism underlying the inhibitory action of this terpenoid on the glycine-induced chloride current. BN52021 selectively and reversibly inhibits glycine current in a non-competitive and voltage-dependent fashion. The antagonistic effect of this substance is more pronounced at positive membrane potentials. At holding potential −70 mV and in the presence of 200 μM glycine IC₅₀ value for the blocking action of BN52021 was 270±10 nM. Repetitive applications of BN52021 reveal the use-dependence of its blocking action. When co-applied with strychnine (STR), a competitive glycine receptor antagonist, BN52021 does not alter the IC₅₀ value for strychnine. The inhibitory effect of BN52021 on gamma-aminobutyric acid (GABA) current is at least 25 times less potent than the effect on glycine current. This substance fails to affect AMPA and NMDA responses. It may be concluded that BN52021 inhibits glycine-gated Cl⁻ channels by interacting with the pore region and does not compete for the strychnine-binding centre.