Characterization of carrier-mediated efflux in human embryonic kidney 293 cells stably expressing the rat serotonin transporter: a superfusion study

Human embryonic kidney 293 cells stably transfected with the rat plasmalemmal serotonin transporter (rSERT) were incubated with 5-[3H]hydroxytryptamine ([3H]5-HT) and superfused. Substrates of the rSERT, such as p-chloroamphetamine (PCA) or methylenedioxymethamphetamine, concentration-dependently increased basal efflux of [3H]5-HT. 5-HT reuptake blockers (e.g., imipramine, citalopram) also caused an enhancement of [3H]5-HT efflux, reaching about half the maximal effect of the rSERT substrates. In uptake experiments, both groups of substances concentration-dependently inhibited 5-HT uptake. EC50 values obtained in superfusion experiments significantly correlated with IC50 values from uptake studies (r2 = 0.92). Addition of the Na+,K(+)-ATPase inhibitor ouabain (100 microM) to or the omission of K+ from the superfusion buffer accelerated basal efflux. The effect of PCA (10 microM) was markedly enhanced by both measures, whereas the effect of uptake inhibitors remained unchanged. When [3H]MPP+, a substrate with low affinity for the rSERT, was used instead of [3H]5-HT for labeling the cells, uptake inhibitors failed to augment efflux. By contrast, PCA accelerated [3H]MPP+ efflux, and its effect was strongly enhanced in the presence of ouabain. The results suggest that the [3H]5-HT efflux caused by substrates of rSERT is carrier-mediated, whereas efflux induced by uptake inhibitors is a consequence of interrupted high-affinity reuptake that is ongoing even under superfusion conditions.     

Characterization of GABAA receptor-mediated 36chloride uptake in rat brain synaptoneurosomes

gamma-Aminobutyric acid (GABA) receptor-mediated 36chloride (36Cl-) uptake was measured in synaptoneurosomes from rat brain. GABA and GABA agonists stimulated 36Cl- uptake in a concentration-dependent manner with the following order of potency: Muscimol greater than GABA greater than piperidine-4-sulfonic acid (P4S)greater than 4,5,6,7-tetrahydroisoxazolo-[5,4-c]pyridin-3-ol (THIP) = 3-aminopropanesulfonic acid (3APS) much greater than taurine. Both P4S and 3APS behaved as partial agonists, while the GABAB agonist, baclofen, was ineffective. The response to muscimol was inhibited by bicuculline and picrotoxin in a mixed competitive/non-competitive manner. Other inhibitors of GABA receptor-opened channels or non-neuronal anion channels such as penicillin, picrate, furosemide and disulfonic acid stilbenes also inhibited the response to muscimol. A regional variation in muscimol-stimulated 36Cl- uptake was observed; the largest responses were observed in the cerebral cortex, cerebellum and hippocampus, moderate responses were obtained in the striatum and hypothalamus and the smallest response was observed in the pons-medulla. GABA receptor-mediated 36Cl- uptake was also dependent on the anion present in the media. The muscimol response varied in media containing the following anions: Br- greater than Cl- greater than or equal to NO3- greater than I- greater than or equal to SCN- much greater than C3H5OO- greater than or equal to ClO4- greater than F-, consistent with the relative anion permeability through GABA receptor-gated anion channels and the enhancement of convulsant binding to the GABA receptor-gated Cl- channel.     

Presynaptic Mechanisms Underlying the γ-Aminobutyric Acid-Evoked Receptor-Independent Release of [3H]Norepinephrine in Rat Hippocampus

The effects of gamma-aminobutyric acid (GABA) on the spontaneous efflux of [3H]norepinephrine ([3H]NE) were studied in synaptosomes prepared from rat hippocampus and prelabelled with [3H]NE. It had been observed previously that, when synaptosomes were exposed in superfusion to GABA, the basal release of the tritiated catecholamine was enhanced, apparently with no involvement of the known GABA receptors. The mechanisms underlying this effect have now been investigated. The potency of GABA as a releaser of [3H]NE was decreased by lowering the Na+ content of the superfusion medium, and its effect disappeared at 23 mM Na+. The GABA-induced [3H]NE release was counteracted by the GABA uptake inhibitor N-(4,4-diphenyl-3-butenyl)nipecotic acid (SKF 89976A), but it was unaffected by the NE uptake blockers desmethylimipramine and nisoxetine. The GABA-induced release of [3H]NE was Ca2+-dependent and tetrodotoxin-sensitive. The data support the hypothesis that GABA provoked [3H]NE release by a novel mechanism which involves penetration into the noradrenergic nerve terminals through a GABA carrier located on the NE terminals themselves. This uptake process might be electrogenic and provoke depolarization of the nerve terminals, causing an exocytotic release of [3H]NE.     

Studies on the Role of α2-Adrenoceptors in the Control of Synaptosomal [3H]5-Hydroxytryptamine Release: Effects of Antidepressant Drugs

The sensitivity of alpha 2-adrenoceptors on 5-hydroxytryptamine (5-HT) nerve endings obtained from rat cerebral cortex was investigated following treatment with the antidepressant drugs desipramine (10 mg/kg/day for 21-28 days) or clorgyline (1 mg/kg/day for 21-28 days). [3H]5-HT (100 nM) was used to load cortical synaptosomes (P2) after experiments with uptake inhibitors confirmed that this concentration of amine ensured exclusive uptake into 5-HT nerve terminals. The sensitivity of K+-stimulated release of [3H]5-HT to alpha 2-adrenoceptor occupancy was assessed in a superfusion system by means of the dose-dependent inhibition of [3H]5-HT release by clonidine. This is blocked by yohimbine (1 microM), which, when administered alone, enhances release, suggesting that endogenous catecholamines released from other synaptosomes act on these alpha 2-heteroreceptors. The effect of addition of citalopram (1 microM) to superfusates suggests that some reuptake of [3H]5-HT occurs during superfusion. Of the tritium released into superfusates during "background" and K+-stimulated release, 17 and 90%, respectively is [3H]5-HT. The attenuation of K+-stimulated release by clonidine is apparently diminished by the chronic clorgyline regimen but not by desipramine. However, clorgyline elevates catecholamine levels, and this might increase endogenous noradrenaline (NA) efflux, which by competition with clonidine could appear to alter alpha 2-adrenoceptor sensitivity. This possibility was investigated by depleting NA with the neurotoxin N-(2-chloroethyl)-N-ethyl-2-bromobenzylamine (DSP4). These studies showed that the apparent effect of chronic clorgyline on alpha 2-adrenoceptor sensitivity to clonidine was due to competition with increased levels of endogenous NA.(ABSTRACT TRUNCATED AT 250 WORDS)     

The stimulation of GABAB receptors increases serotonin release in the rat suprachiasmatic area

The action of γ-aminobutyric acid (GABA) and related compounds on the spontaneous release of newly synthesized [³H]5-hydroxytryptamine ([³H]5-HT) was studied in the suprachiasmatic area (SCA) using a superfusion system. GABA (10 μM) increased [³H]5-HT release from SCA by up to 190%. Bicuculline or picrotoxin (10 μM) failed to inhibit the stimulatory effect of GABA. Muscimol (10 μM), a GABA_A agonist, was ineffective, however β-p-chlorophenyl GABA, R(−)baclofen, enhanced over 200% the release of the indoleamine; this latter effect was stereospecific. RS baclofen was twice less potent than the R(−)isomer in increasing the [³H]5-HT release. S(+)baclofen failed to affect the release of the indoleamine, whereas it attenuated the effect of its enantiomer. The effect of R(−)baclofen was Ca²⁺ dependent and was abolished by tetrodotoxin (TTX).Taken together these results suggest that in the SCA, [³H]5-HT release is facilitated by the stimulation of GABA_B receptors. The possible localization of these receptors is discussed in the light of morphological data recently reported by Bosler et al. (1985) and results obtained after TTX application.     

Properties of chloride transport in barnacle muscle fibers.

Unidirectional chloride-36 fluxes were measured in internally dialyzed barnacle giant muscle fibers. About 50--60% of the Cl efflux was irreversibly blocked by the amino-group reactive agent, 4-acetamido-4'-isothiocyano-stilbene-2,2'-disulfonic acid (SITS), when it was applied either intra- or extracellularly. Similarly, Cl influx was also blocked by SITS. No significant effect on [Cl]i of SITS was noted in intact muscle fibers. However, the rate of net Cl efflux from muscle fibers which were Cl-loaded by overnight storage at 6 degrees C could be slowed by SITS treatment. Two classes of anions were defined based upon their effects on Cl efflux. Methanesulfonate and nitrate inhibited Cl efflux either when they replaced external chloride or when they were added to a constant external chloride concentration. The other group of anions (propionate, formate) stimulated both Cl efflux and influx and such stimulation could be blocked by SITS. Propionate influx was not nearly as large as the stimulated Cl efflux and was unaffected by SITS. Neither the effects of SITS nor those of the anion substitutes could be simply accounted for by changes in the membrane resting potential or conductance. These results suggest a mediated transport system for chloride across the barnacle sarcolemma.     

GABA transporters mediate glycine release from cerebellum nerve endings: roles of Ca(2+)channels, mitochondrial Na(+)/Ca(2+) exchangers, vesicular GABA/glycine transporters and anion channels

GABA transporters accumulate GABA to inactivate or reutilize it. Transporter-mediated GABA release can also occur. Recent findings indicate that GABA transporters can perform additional functions. We investigated how activation of GABA transporters can mediate release of glycine. Nerve endings purified from mouse cerebellum were prelabeled with [(3)H]glycine in presence of the glycine GlyT1 transporter inhibitor NFPS to label selectively GlyT2-bearing terminals. GABA was added under superfusion conditions and the mechanisms of the GABA-evoked [(3)H]glycine release were characterized. GABA stimulated [(3)H]glycine release in a concentration-dependent manner (EC(50) = 8.26 μM). The GABA-evoked release was insensitive to GABA(A) and GABA(B) receptor antagonists, but it was abolished by GABA transporter inhibitors. About 25% of the evoked release was dependent on external Ca(2+) entering the nerve terminals through VSCCs sensitive to ω-conotoxins. The external Ca(2+)-independent release involved mitochondrial Ca(2+), as it was prevented by the Na(+)/Ca(2+) exchanger inhibitor CGP37157. The GABA uptake-mediated increases in cytosolic Ca(2+) did not trigger exocytotic release because the [(3)H]glycine efflux was insensitive to clostridial toxins. Bafilomycin inhibited the evoked release likely because it reduced vesicular storage of [(3)H]glycine so that less [(3)H]glycine can become cytosolic when GABA taken up exchanges with [(3)H]glycine at the vesicular inhibitory amino acid transporters shared by the two amino acids. The GABA-evoked [(3)H]glycine efflux could be prevented by niflumic acid or NPPB indicating that the evoked release occurred essentially by permeation through anion channels. In conclusion, GABA uptake into GlyT2-bearing cerebellar nerve endings triggered glycine release which occurred essentially by permeation through Ca(2+)-dependent anion channels. Glial GABA release mediated by anion channels was proposed to underlie tonic inhibition in the cerebellum; the present results suggest that glycine release by neuronal anion channels also might contribute to tonic inhibition.     

Comparison of changes evoked by GABA (gamma-aminobutyric acid) and anoxia in [K+]o, [Cl-]o, and [Na+]o in stratum pyramidale and stratum radiatum of the guinea pig hippocampus

Ion-selective microelectrode recordings were made to assess a possible contribution of extracellular gamma-aminobutyric acid (GABA) accumulation to early responses evoked in the brain by anoxia and ischemia. Changes evoked by GABA or N2 in [K+]o, [Cl-]o, [Na+]o, and [TMA+]o were recorded in the cell body and dendritic regions of the stratum pyramidale (SP) and stratum radiatum (SR), respectively, of pyramidal neurons in CA1 of guinea pig hippocampal slices. Bath application of GABA (1-10 mM) for approximately 5 min evoked changes in [K+]o and [Cl-]o with respective EC50 levels of 3.8 and 4.1 mM in SP, and 4.7 and 5.6 mM in SR. In SP 5 mM GABA reversibly increased [K+]o and [Cl-]o and decreased [Na+]o; replacement of 95% O2 -5% CO2 by 95% N2 -5% CO2 for a similar period of time evoked changes which were for each ion in the same direction as those with GABA. In SR both GABA and N2 caused increases in [K+]o and decreases in [Cl-]o and [Na+]. The reduction of extracellular space, estimated from levels of [TMA+]o during exposures to GABA and N2, was 5-6% and insufficient to cause the observed changes in ion concentration. Ion changes induced by GABA and N2 were reversibly attenuated by the GABA(A) receptor antagonist bicuculline methiodide (BMI, 100 microM). GABA-evoked changes in [K+]o in SP and SR and [Cl-]o in SP were depressed by > or =90%, and of [Cl-]o in SR by 50%; N2-evoked changes in [K+]o in SP and SR were decreased by 70% and those of [Cl-]o by 50%. BMI blocked delta [Na+]o with both GABA and N2 by 20-30%. It is concluded that during early anoxia: (i) accumulation of GABA and activation of GABA(A) receptors may contribute to the ion changes and play a significant role, and (ii) responses in the dendritic (SR) regions are greater than and (or) differ from those in the somal (SP) layers. A large component of the [K+]o increase may involve a GABA-evoked Ca2+-activated gk, secondary to [Ca2+]i increase. A major part of [Cl-]o changes may arise from GABA-induced g(Cl) and glial efflux, with strong stimulation of active outward transport and anion exchange at SP, and inward Na+/K+/2Cl- co-transport at SR. Na+ influx is attributable mainly to Na+-dependent transmitter uptake, with only a small amount related to GABA(A) receptor activation. Although the release and (or) accumulation of GABA during anoxia might be viewed as potentially protectant, the ultimate role may more likely be an important contribution to toxicity and delayed neuronal death.     

Is the concentration of γ-aminobutyric acid in the nerve terminal regulated via product inhibition of glutamic acid decarboxylase?

Fractions of synaptosomes were used to study the regulation of -aminobutyric acid (GABA) synthesis. The isolated synaptosomes were superfused in media of various compositions. [³H]GABA and GABA released into the medium or remaining in the synaptosomes were analyzed by liquid scintillation and HPLC techniques. Different conditions, designed to increase the GABA efflux rate were used: the rate of superfusion was varied and the concentrations of K⁺ and Ca²⁺ were altered. Stimulation of GABA efflux was paralleled with an increased synthesis of GABA, since, in spite of the increased GABA efflux, a relatively constant intraterminal level was found. The findings suggest that the intraterminal concentration of GABA and thus also its synthesis is regulated via product inhibition. In addition, [³H]GABA, exogenous, and GABA, endogenous, responded to external stimulae (Ca²⁺, veretradine, various GABA concentrations and the glutaminase inhibitor diazo-nor-leucine) in a way which was compatible with them being localized in and/or released from different compartments.     

Properties of [3H]taurine release from crude synaptosomal fractions of rat cerebral cortex

The release of previously accumulated [³H]taurine and [¹⁴C]GABA from crude synaptosomal (P₂) fractions isolated from rat cerebral cortex was studied using a superfusion system. The spontaneous efflux of [³H]taurine and [¹⁴C]GABA was stimulated by elevated concentrations of K⁺ (15–133 mM) in a concentration-dependent manner. This K⁺-stimulated release of [¹⁴C]GABA but not of [³H]taurine was enhanced in the presence of Ca²⁺. However, addition of 3 mM Ca²⁺ to the superfusion medium in the presence of the ionophore A 23187 resulted in a stimulation of the release of both [³H]taurine and [¹⁴C]GABA. These results are discussed in connection with the cellular localization of tourine in the central nervous system.     

Pre-steady state transport by erythrocyte band 3 protein: uphill countertransport induced by the impermeant inhibitor H2DIDS.

Pre-steady state Cl- efflux experiments have been performed to test directly the idea that the transport inhibitor H2DIDS (4,4'-diisothiocyanatodihydrostilbene-2,2'-disulfonate) binds preferentially to the outward-facing state of the transporter. Cells were equilibrated with a medium consisting of 150 mM sodium phosphate, pH 6.2, N2 atmosphere, and 80-250 microM 36Cl-. Addition of H2DIDS (10-fold molar excess compared with band 3) induces a transient efflux of Cl-, as expected if H2DIDS binds more tightly to outward-facing than to inward-facing states. The size of the H2DIDS-induced efflux depends on the Cl- concentration and is about 700,000 ions per cell at the highest concentrations tested. The size of the transient efflux is larger than would be expected if the catalytic cycle for anion exchange involved one pair of exchanging anions per band 3 dimer. These results are completely consistent with a ping-pong mechanism of anion exchange in which the catalytic cycle consists of one pair of exchanging anions per subunit of the band 3 dimer.     

Liquid and solid-state Cl- -sensitive microelectrodes. Characteristics and application to intracellular Cl- activity in Balanus photoreceptor

When intracellular chloride activity (aiCl) was monitored with chloride-sensitive liquid ion exchanges (CLIX) microelectrodes in Balanus photoreceptors, replacement of extracellular chloride (Cl0) by methanesulfonate or glutamate was followed by a rapid but incomplete loss of aiCl. When propionate was used as the extracellular anion substitute, CLIX electrodes detected an apparent gain in aiCl, while a newly designed Ag-AgCl wire-in glass microelectrode showed a loss of aiCl under the same conditions. This discrepancy in Cl- washout when propionate replaced Cl0 is explained by the differences in selectivity of CLIX and Ag-AgCl electrodes for native intracellular anions and for the extracellular anion substitute which also replaces Cli and interferes in the determination of aiCl. Both electrodes indicate that ECl approximately Em when the cells are bathed in normal barnacle saline, and both electrodes showed the rate of Cl washout (tau approximately 5 min) to be independent of Cli when Cl0 was replaced by glutamate. Details of Ag-AgCl microelectrode construction are presented. These electrodes were tested and found to be insensitive to the organic anion substitutes used in this study. Selectivity data of CLIX electrodes for several anions of biological interest are described.     

Chloride fluxes in lily pollen tubes: a critical reevaluation

Microelectrodes, made from a Cl(-)-selective liquid ion exchanger previously used to measure putative Cl- fluxes in Lilium longiflorum pollen tubes, were characterized. The electrodes were poorly selective, possessing only about 10-fold selectivity for Cl- over other anions tested. They had only 2.4-fold selectivity for Cl- over the anionic form of the H+ buffer, MES, indicating that the electrode can indirectly detect H+ gradients. Apparent anion influx was detected along the pollen tube shafts and at the grains while apparent anion efflux was detected near the tip of the tube. During oscillating growth, the peak of the oscillating apparent anion efflux at the tip occurred, on average, 7.9 sec after the peak of the growth oscillations. Consideration of the previously characterized H+ fluxes in lily pollen grains and tubes, as well as the poor anion selectivity of the Cl- electrodes, indicates that the putative Cl- fluxes are in fact changes in the anionic concentration of the buffer resulting from H+ gradients and not changes in Cl- concentration. The claim of a central role for Cl- in lily pollen tube growth is further undermined by the fact that these tubes grow at the same rate if the Cl- content of the growth medium is reduced to trace levels (< or =31 microM), and that the grains have only small reserves of Cl-. These results lead to the conclusion that Cl- fluxes are not a significant component of pollen tube growth and Cl- itself is not required for growth.     

Role of chloride on carrier-mediated transport of p-aminohippurate in rat renal basolateral membrane vesicles

Effect of inorganic anions on p-amino[3H]hippurate transport in renal basolateral membranes has been studied using the vesicles preloaded with unlabeled p-aminohippurate (countertransport condition). The uptake of p-amino[3H]hippurate was stimulated by the outward gradient of unlabeled p-aminohippurate and the labeled substrate was accumulated into the vesicles against its concentration gradient in the presence of Cl-. The substitution of SCN- and SO4(2-) for Cl- in both sides of the vesicles depressed the initial rate and the overshoot magnitude of p-amino[3H]hippurate uptake. These results suggest that Cl- may play an important role for the carrier-mediated transport system of organic anion in renal basolateral membranes.     

Evidence for a Reduction of Coupling between GABA<Subscript>A</Subscript> Receptor Agonist and Ionophore Binding Sites by Inorganic Phosphate

[³⁵S]TBPS binding to the GABA_A receptor ionophore binding site is anion dependent. Using autoradiography on rat brain sections, we show that permeabilities of anions through the receptor channel correlate with their efficiencies to promote basal [³⁵S]TBPS binding. Phosphate made an exception as it induced more binding than expected from its permeability. Well-permeable anions (chloride, nitrate, formate) allowed [³⁵S]TBPS binding to be effectively displaced by 1 mM GABA, whereas low-permeable anions (acetate, phosphate, propionate) markedly prevented this GABA effect, especially in the thalamus, the transition from the high to the low GABA effect being between formate and acetate. In the presence of phosphate, GABA enhanced [³H]flunitrazepam binding to benzodiazepine site of recombinant α1β2γ2 receptors with the same efficacy but lower potency as compared to the presence of chloride, whereas [³⁵S]TBPS binding was abnormally modulated by GABA. These results suggest that inorganic phosphate affects coupling between agonist and ionophore sites in GABA_A receptors. Special issue dedicated to Simo S. Oja     

Comparison of Two Superfusion Systems for Study of Neurotransmitter Release from Rat Cerebral Cortex Slices

Depolarization-induced release of [3H]gamma-aminobutyric acid (GABA) and [3H]noradrenaline (NA) from rat cerebral cortex slices was studied in two superfusion systems: one with stationary and the other one with continuously shaken slice compartments. Calcium-dependent depolarization-induced release of GABA and NA could be demonstrated only with shaken slices. GABA, but not NA, could also be released by high K+ media and veratridine from stationary slices. Synaptic transmitter releasing mechanisms are apparently damaged in stationary slices, possibly due to impaired energy metabolism.     

5-Hydroxytryptamine3 Receptors Sited on Cholinergic Axon Terminals of Human Cerebral Cortex Mediate Inhibition of Acetylcholine Release

Synaptosomes prepared from freshly obtained human cerebral cortex and labeled with [3H]choline have been used to investigate the modulation of [3H]acetylcholine ([3H]ACh) release by 5-hydroxytryptamine (5-HT). The Ca(2+)-dependent release of [3H]-ACh occurring when synaptosomes were exposed in superfusion to 15 mM KCl was inhibited by 5-HT (0.01-1 microM) in a concentration-dependent manner. The effect of 5-HT was mimicked by 1-phenylbiguanide, a 5-HT3 receptor agonist, but not by 8-hydroxy-2-(di-n-propylamino)tetralin, a 5-HT1A receptor agonist. The 5-HT3 receptor antagonists tropisetron and ondansetron blocked the effect of 5-HT, whereas spiperone and ketanserin were ineffective. It is suggested that cholinergic axon terminals in the human cerebral cortex possess 5-HT receptors that mediate inhibition of ACh release and appear to belong to the 5-HT3 type.     

Differences in Anionic Dependence of the Synaptic Efflux of d-Aspartic Acid and γ-Aminobutyric Acid

The synaptosomal effluxes of D-aspartate and gamma-aminobutyric acid (GABA) induced by a substitution of the Cl- ions with propionate in the incubation medium were measured in preparations of hippocampal tissue homogenates. The efflux of aspartate was significantly higher than spontaneous efflux at 125 mM Cl- (normal = 144 mM) and was increased with decreasing Cl- concentration. GABA efflux was much less sensitive to a reduction in Cl- concentration than D-aspartate. The efflux was Ca2+-dependent in both cases.     

Anion and amine uptake and uncoupling in submitochondrial particles.

1. Unlike chloroplasts, submitochondrial particles are not uncoupled by nigericin + KCl or NH4Cl. Also the uncoupling effect of lipophilic anions is largely independent of the addition of weak bases. 2. Low concentrations of permeant anions cause a shift of the steady-state energy level rather than a cycle of energy utilization. The degree of inhibition of ATP synthesis by tetraphenylboron is larger than required for the uptake of the anion. 3. Lipophilic anions such as bromthymolblue, bromcresolpurple, and 8-anilino-1-napthalene sulphonate cause a pH-independent, 50% uncoupling in submitochondrial particles at concentrations of 3, 30 and 30 muM, respectively. The passive interaction of bromthymolblue and bromcresolpurple appears as a pH-dependent distribution between two pHases. ATP causes a pH-independent slight shift in the anion distribution, with negligible anion accumulation. 4. Addition of amines to energized submitochondrial particles results in two types of effects; uptake of amines and uncoupling. While in chloroplasts amine uptake and uncoupling are closely associated, this is not the case in submitochondrial particles. The uncoupling effect is observed only with lipophilic and not with hydrophilic amines, and the degree of uncoupling increases with the lipophilicity of the amines. The amine uptake, on the other hand, is accompanied by negligible uncoupling. 5. While the uptake of amines is dependent on the presence of non-permeant anions, such as Cl-, the uncoupling effect is independent of Cl-. Furthermore the amine uncoupling is markedly enhanced by lipophilic anions. 6. The view is discussed that the uncoupling effect of lipophilic anions and lipophilic amines in submitochondrial particles is due to a catalytic energy dissipation rather than to a stoichiometry energy utilization. The molecular mechanism of uncoupling presumably involves a cycling of charges after a perturbation of the membrane structure.     

Stimulation of γ-[3H]Aminobutyric Acid Release from Cultured Mouse Cerebral Cortex Neurons by Sulphur-Containing Excitatory Amino Acid Transmitter Candidates: Receptor Activation Mediates Two Distinct Mechanisms of Release

In primary cultures of mouse cerebral cortex neurons, sulphur-containing excitatory amino acids (SAAs; namely, L-cysteine sulphinate, L-cysteate, L-homocysteine sulphinate, L-homocysteate, S-sulphocysteine) at concentrations ranging from 0.1 microM to 1 mM evoked a saturable release of gamma-[3H]aminobutyric acid ([3H]GABA) in the absence of any other depolarizing agent. All SAAs exhibited essentially similar potency (EC50, 100-150 microM) in releasing [3H]GABA although a variable profile of maximal stimulatory effect was observed when compared with basal release. The intracellular accumulation of the lipophilic cation, [3H]tetraphenylphosphonium, was significantly reduced in the presence of all SAAs, thus verifying a depolarization of the neuronal plasma membrane. SAA-stimulated release of [3H]GABA was shown to comprise two distinct components, calcium-dependent and calcium-independent, which occur after activation of N-methyl-D-aspartate (NMDA) and non-NMDA receptors. Thus, all SAA-evoked responses were antagonized by the selective, competitive NMDA-receptor antagonist, 3-[(+/-)-2-carboxypiperazin-4-yl]propyl-1-phosphonic acid (IC50 range, greater than 50 microM) and the non-NMDA-receptor antagonist, 6,7-dinitroquinoxalinedione (IC50 range, 5-50 microM). Removal of magnesium ions from the superfusion medium caused a significant potentiation of SAA-evoked responses without having any effect on basal levels of [3H]GABA efflux, a result consistent with an involvement of NMDA-receptor activation. Calcium-independent release (i.e., that release remaining in the presence of 1 mM cobalt ions) was a distinct component but of smaller magnitude. Using 500 microM excitatory amino acid agonist concentrations, this component of release was (1) markedly attenuated by 15 microM SKF-89976-A, a non-transportable inhibitor of the GABA carrier, and (2) abolished when choline ions replaced sodium ions in the superfusion medium or when in the presence of excitatory amino acid receptor antagonists. These observations are clearly consistent with a receptor-mediated, depolarization-induced reversal of the GABA carrier.