THE EFFECT OF ELECTRICAL STIMULATION AND HIGH POTASSIUM CONCENTRATIONS ON THE EFFLUX OF [3H] γ-AMINOBUTYRIC ACID FROM BRAIN SLICES

Abstract— Brain slices were incubated with [³H]GABA in a medium containing aminooxyacetic acid to prevent metabolism of [³H]GABA by GABA-glutamate transaminase. The slices, which rapidly accumulated radioactivity, were then continuously perfused and the efflux of [³H]GABA from the tissue was measured. The spontaneous efflux of [³H]GABA consisted of an initial rapid phase followed by a much slower release of [³[H]GABA. After 40 min perfusion 90 per cent of the radioactivity remained in the tissue.
The slices were depolarized by electrical stimulation or by perfusion with a medium containing a high potassium concentration (40 mM). These procedures caused a striking increase in the efflux of [³H]GABA. The increased efflux produced by potassium, but not that produced by electrical stimulation, was dependent on calcium ions in the medium. The effect of electrical stimulation on [³H]GABA release was considerably reduced by a raised concentration (10 mM) of magnesium in the medium.
High potassium concentrations and electrical stimulation did not cause an increase in the efflux of [¹⁴C]urea, L-[³H]leucine or [¹⁴C]α-amino-isobutyric acid from brain slices. These results are consistent with the suggestion that GABA may be an inhibitory transmitter in the cerebral cortex.     

RELEASE OF [3H]GAMMA-AMINOBUTYRIC ACID FROM GLIAL CELLS IN RAT DORSAL ROOT GANGLIA.

Abstract— Desheathed rat dorsal root ganglia were incubated in a medium containing amino-oxyacetic acid and [³H]GABA. Under these conditions, [³H]GABA is taken up exclusively by the satellite glial cells in the ganglia. Efflux of [³H]GABA from the tissue was measured after passing the ganglia through a series of wash solutions. The spontaneous efflux of radioactivity, mostly [³H]GABA, was more rapid in the absence of amino-oxyacetic acid in the incubation and wash media.
Raising the potassium concentration in the wash media caused an increase in the efflux of [³H]GABA. This increase was sigmoidally related to the potassium concentration in the wash media, reaching a maximum at 64 m m -K⁺. The releasing effect of K⁺ was inhibited by removing calcium from the media. Reducing the calcium and raising the magnesium concentration in the wash solutions inhibited the increased efflux of [³H]GABA due to 64 m m -K⁺ by 48 per cent, while 5 mM-La³⁺ and diphenylhydantoin (0·005 and 0·5 m m ) had no effect on this increase.
Only a small increase in the efflux of [¹⁴C]glutamate was produced by 64 m m -K⁺ and it had no effect upon the effluxes of [³H]glycine, [³H]alanine or [³H]leucine. The efflux of lactate dehydrogenase was similarly unaffected by 64 mM-K⁺. The results suggest that glial cells in spinal ganglia can respond to depolarizing concentrations of potassium by releasing GABA in a calcium-dependent process.     

THE RELEASE OF AMINO ACIDS FROM THE HEMISECTED SPINAL CORD DURING STIMULATION

Abstract— Isolated frog or toad hemicords were incubated for 40 min with either [¹⁴C]glycine, [³H]GABA, l -[¹⁴C]glutamate. l -[¹⁴C]aspartate, l -[¹⁴C]serine, l [¹⁴C]threonine or l -[³H]leucine, and the release of these compounds from the cord was measured under resting conditions and during electrical stimulation. Stimulation of spinal roots produced no significant change in the efflux of any of the compounds tested. Direct stimulation of the rostral cord however, produced a large increase in the efflux of [¹⁴C]glycine, [³H]GABA, l -[¹⁴C]glutamate and l -[¹⁴C]aspartate. These increased effluxes were calcium dependent, the effects of stimulation being reduced in a calcium-free, or magnesium-supplemented (10 mM) medium. Stimulation failed to produce an increase in the efflux of l -[¹⁴C]serine, l -[¹⁴C]threonine, l -[¹⁴H]leucine, [¹⁴C]mannitol or [¹⁴C]urea. These results are consistent with the suggestions that glycine, GABA, glutamate and aspartate may be synaptic transmitters in the spinal cord.     

DEMONSTRATION OF ACETYLCHOLINE RELEASE BY MEASURING EFFLUX OF LABELLED CHOLINE FROM CEREBRAL CORTICAL SLICES

Abstract— To demonstrate release of ACh in the absence of inhibition of cholinesterase, slices of cerebral cortex were incubated with [³H]choline, after which they were placed in a tissue bath for superfusion. Hemicholinium (HC-3) increased the spontaneous efflux of [³H]choline. Electrical stimulation at 4/s increased the efflux of [³H]choline to the same extent whether the slices were stimulated early or late during superfusion. The effect of stimulation on efflux of [³H]choline was abolished by tetrodotoxin and by the absence of calcium. The extent of choline efflux resulting from stimulation, as calculated from the specific radioactivity of the incubation medium, was the same when the slices were incubated with 0.1 or 1.0mM choline, but was less with lower concentrations of choline. We conclude that the increased efflux of [³H]choline evoked by stimulation probably originates from stores of [³H]ACh synthetized during incubation.     

THE SELECTIVE NEURONAL UPTAKE AND RELEASE OF [3H]DL-2,4-DIAMINOBUTYRIC ACID BY RAT CEREBRAL CORTEX

Abstract— At 25°C the accumulation of [³H] dl -2,4-diaminobutyric acid (DABA) into small rat cortical slices was linear with time and a tissue: medium ratio of 35:1 was attained after 60 min. At 37°C the uptake was no longer linear and the tissue: medium ratio at 60 min was 66:1. Uptake was unaffected by the addition of 10 μ m -AOAA and dependent on the presence of Na⁺ in the incubation media. The uptake was shown to have a high affinity component with a K _m of 20.7 μ m and a V _max of 28.6 nmol/g/min. IC50's for the inhibition of [³H]DABA uptake by dl -DABA, l -DABA and GABA were 80, 40 and 17 μ m respectively. Two m m β -alanine, however, caused less than 13% inhibition of [³H]DABA uptake. Electron microscopic autoradiographs showed the [³H]DABA to be accumulated by 22% of the identifiable nerve terminals and, after 14 days exposure, the density of silver grains over nerve terminals was 36–38 times higher than that over the rest of the electron micrograph. On the other hand, [³H]DABA was not taken up into rat sensory ganglia and light level autoradiography showed the small amount of [³H]DABA accumulated by the ganglia to be evenly distributed throughout the tissue. Both electrical stimulation for 30 s and exposure of the tissue to a medium containing 47 m m -K⁺ for 2 min caused a marked increase in the efflux of [³H]DABA from the tissue. Both these effects were abolished by a reduction in Ca²⁺ concentration and an increase in the Mg²⁺ concentration of the superfusing medium. These results suggest that l -DABA acts as a 'false transmitter' for the neuronal uptake, storage and release of GABA.     

STUDIES OF THE UPTAKE AND RELEASE OF [3H]β-ALANINE BY FROG SPINAL SLICES

Abstract— [³H]β-Alanine was accumulated by frog spinal cord slices by two transport components with estimated K_m values of 31 M ('high-affinity') and 11 HIM ('low affinity') respectively. The high affinity uptake exhibited sodium ion and energy dependence, temperature sensitivity, had a very low V_max (10.4 nmol/g/min) compared to GABA and glycine, was competitively inhibited by GABA (K_t 2 M), and was significantly reduced by the presence of glycine and of taurine in the incubating medium.
When slices preloaded with [³H]β-alanine were superfused with medium containing depolarizing concentrations of potassium ions, there was a small, but consistent, increase in [³H]β-alanine efflux: 1.4 times prestimulation rates in 40 mM potassium. When the superfusate was altered by omission of calcium and addition of concentrations of magnesium (10 mm), manganese (1 mM), and cobalt (1 mM) ions sufficient to block reflex transmission in the isolated in vitro frog cord, the potassium-evoked release was not blocked. Release was decreased by lanthanum ions (1 mM). Release of [³H]GABA and [³H]glycine in parallel experiments was inhibited by magnesium, manganese, cobalt and lanthanum. Veratridine significantly increased the release of [³H]GABA and [³H]glycine but not of [³H]β-alanine.
These observations demonstrate the non-specificity of β-alanine uptake and the unconventional nature of the calcium-dependence of β-alanine release and therefore do not lend support to the hypothesis that β-alanine functions as a neurotransmitter in frog spinal cord.     

Adenosine A2a Receptor-Mediated Modulation of Striatal [3H]GABA and [3H]Acetylcholine Release

Abstract: The ability of adenosine agonists to modulate K⁺-evoked 4D†-[³H]aminobutyric acid ([³H]GABA) and acetylcholine (ACh) release from rat striatal synaptosomes was investigated. The A_2a receptor-selective agonist CGS 21680 inhibited Ca²⁺-dependent [³H]GABA release evoked by 15 m M KCI with a maximal inhibition of 29 ± 4% (IC₅₀ of ∼4 ± 10 ⁻¹² M ). The relative order of potency of three agonists was CGS 21680 ± 5'- N -ethylcarboxamidoadenosine > R-phenylisopropyladenosine (R-PIA), with the inhibition being blocked by A_2a receptor-selective antagonists (CP 66,713 and CGS 15943A) but not by the A₁-selective antagonist 8-cyclopentyl-1,3-dipropylxanthine (DPCPX). When release of [³H]GABA was evoked by 30 mM KCI, no significant inhibition was observed. In contrast, CGS 21680 stimulated the release of [³H]ACh evoked by 30 m M KCI, with a maximal stimulation of 26 ± 5% (IC₅₀ of ∼10⁻¹¹ M ). This effect was blocked by CP 66,713 but not by DPCPX. The A₁ agonist R -PIA inhibited [³H]ACh release, an effect blocked by DPCPX. It is concluded that adenosine A_2a receptors are present on both GABAergic and cholinergic striatal nerve terminals where they inhibit and stimulate transmitter release, respectively. Key Words : GABA—Acetylcholine—Adenosine receptors—Striatum.     

Neurochemical Studies of the Mesolimbic Dopaminergic Pathway: Somatodendritic Mechanisms and GABAergic Neurones in the Rat Ventral Tegmentum

Abstract: The rat ventral tegmentum (containing dendrites and somata of mesolimbic neurones) contained 1.3 μg/g of dopamine, which was reduced to 40% of the control level by reserpine. Slices of ventral tegmentum were able to accumulate and release (elevated potassium or protoveratrine A) exogenous [³H]dopamine. In parallel studies the uptake mechanism in ventral tegmentum was shown to be virtually identical to the nerve terminal uptake of [³H]dopamine by slices of nucleus accumbens. The release of [³H]dopamine was indistinguishable from that observed in substantia nigra, where there is substantial evidence for dendritic mechanisms. Basal adenylate cyclase activity was present, but dopamine-stimulated activity was not detected. A high GABA concentration (7.7 μmol/g) was present in ventral tegmentum, in conjunction with an uptake and a release mechanism for [³H]GABA. GABA and muscimol elicited a small, reproducible efflux of [³H]dopamine, but an interaction between dopamine and [³H]GABA efflux was not observed. The results are in accord with transmitter roles for dopamine and GABA in the somatoden-dritic area of mesolimbic dopaminergic neurons.     

Phosphatidylserine Enhancement of [3H]γ-Aminobutyric Acid Uptake by Rat Whole Brain Synaptosomes

Abstract: [³H] γ -Aminobutyric acid ([³H]GABA) binding to purified lipids was examined in an organic solvent-aqueous partition system. In addition, the [³H]GABA binding capacity in the partition system was compared with the capacity of lipids to alter sodium-dependent [³H]GABA uptake into synaptosomes isolated from rat whole brains. [³H]GABA was found to bind to all of the lipids studied in the organic solvent-aqueous partition system [phosphatidic acid (PA), phosphatidylethanolamine (PE), phosphatidylinositol (PI), phosphatidylserine (PS), gangliosides, and sulfatide], although PS exhibited the greatest binding capacity. [³H]GABA uptake into synaptosomes was enhanced by PS (48.0%) but was not altered by any other lipid. PS enhancement of [³H]GABA uptake required the presence of sodium and was blocked by nipecotic acid (10 μ m ). These results suggest that PS may play a role in the sodium-dependent GABA reuptake process in the presynaptic nerve end.     

Nitric Oxide-Induced [3H]GABA Release from Cerebral Cortical Neurons Is Mediated by Peroxynitrite

Abstract: The functional significance of peroxynitrite in the release of [³H]GABA induced by nitric oxide (NO) liberated from NO generators was investigated using cerebral cortical neurons in primary culture. NO generators such as sodium nitroprusside (SNP) and S -nitroso- N -acetylpenicillamine (SNAP) increased [³H]GABA release in a dose-dependent manner. These increases in [³H]GABA release were significantly inhibited by hemoglobin, indicating that those NO generators evoke the release of [³H]GABA by the formation of NO. Two types of superoxide scavengers, Cu²⁺/Zn²⁺ superoxide dismutase and ceruloplasmin, significantly reduced the increase in [³H]GABA release induced by both SNP and SNAP, which assumes that NO requires superoxide to induce [³H]GABA release from the neurons. In addition, synthesized peroxynitrite induced a dose-dependent increase in [³H]GABA release from the neurons. These results indicate that NO-induced [³H]GABA release is mediated by peroxynitrite formed by the reaction of NO with superoxide.     

EFFECTS OF AMINO-OXYACETIC ACID ON [3H]GABA UPTAKE BY RAT BRAIN SLICES

Abstract— The effect of amino-oxyacetic acid on the uptake of [³H]GABA by rat brain slices was studied. When added simultaneously with [³H]GABA, amino-oxyacetic acid had no significant effect on [³H]GABA uptake. However, preincubation of brain slices with amino-oxyacetic acid prior to addition of [³H]GABA produced inhibition of uptake, which increased with longer duration of preincubation. The inhibitory effect of amino-oxyacetic acid was maximal at 2 mM concentration and concentrations sufficient to inhibit significantly GABA:glutamate transaminase (10^--⁶ M) had no effect on [³H]GABA uptake. D-Cycloserine and β-hydrazino-propionic acid also inhibited [³H]GABA uptake, but the amounts required were considerably in excess of those needed to inhibit GABA:glutamate transaminase. 4-Deoxypyridoxine inhibited [³H]GABA uptake, whether given in vivo or in vitro , and the inhibitory effect of amino-oxyacetic acid was reversed with pyridoxine. GABA transport appears to be dependent on pyridoxal phosphate and interference with this function of the vitamin is suggested as the basis for the inhibitory effect of amino-oxyacetic acid on [³H]GABA uptake.     

The Effect of Colchicine and Cytochalasin B on the Release of Taurine from the Chick Retina

Abstract: The effect of colchicine (0.5 mM) and of cytochalasin B (10⁻⁴ M) on the release of [³⁵S]taurine from the isolated chick retina, upon stimulation by 68.5 mM-KCl, 10⁻⁵ M-veratridine and 10 mM-glutamate, was studied. Cytochalasin and colchicine effects on taurine release were compared with those on K⁺-stimulated release of [³H]dopamine and [³H]GABA. Colchicine caused a marked decrease of the [³⁵S]taurine release evoked by the three stimulatory agents; it also decreased [³H]dopamine release without affecting that of [³H]GABA. Cytochalasin B significantly decreased the efflux of [³⁵S]taurine stimulated by glutamate or veratridine without altering that evoked by 68.5 mM-KCl. Cytochalasin practically suppressed the [³H]dopamine-stimulated release and slightly decreased that of [³H]GABA. This drug produced a high increase in the spontaneous release of labeled GABA and taurine. These results suggest that the release of taurine and GABA from the chick retina probably occurs through different mechanisms. It is suggested that taurine release may be related to a process involving contractile proteins.     

[3H]Imipramine Is Accumulated but Not Released from Slices of the Rabbit Caudate and Hypothalamus

Abstract: Slices of rabbit caudate and hypothalamus take up and accumulate [³H]imipramine. In superfused slices of both structures electrical stimulation or exposure to tyramine failed to release recently taken up [³H]imipramine. De-polarization by exposure to 30–60 mm-potassium caused only a small release of [³H]imipramine that was not concentration-dependent. The release of [³H]imipramine by high potassium was independent of the presence of calcium ions in the superfusion medium. These results contrasted with those obtained for the release of [³H]dopamine from the caudate and [³H]noradrenaline from the hypothalamus, where tyramine, electrical stimulation, and high potassium caused a significant release of the labeled neurotransmitters. The release of [³H]dopamine from the caudate and [³H]noradrenaline from the hypothalamus elicited by electrical stimulation or high potassium was entirely calcium-dependent. It is concluded that [³H]imipramine is taken up into the two brain regions and is accumulated in a nonvesicular site from which it is not released by calcium-dependent depolarizing stimuli.     

Presence of Radiolabelled Metabolites in Release Studies Using [3H]γ-Aminobutyric Acid

Abstract: Most studies on γ-aminobutyric acid (GABA) release from nervous tissue have been conducted using radiolabelled GABA in the presence of aminooxyacetic acid (AOAA) to inhibit GABA: 2-oxoglutarate aminotransferase (GABA-T) to prevent conversion of labelled GABA to labeled catabolites. Here we present data showing that even in the presence of 10 μM-AOAA the spontaneous release of tritium from rat cortical synaptosomes prelabelled with 2,3-[³H]GABA is mainly in the form of tritiated water but that the increase in tritium release in the presence of unlabelled GABA or high potassium-ion concentrations is in the form of authentic [³H]GABA. Interpretation of results should take these facts into account.     

RELEASE AND EXCHANGE STUDIES RELATING TO THE SYNAPTOSOMAL UPTAKE OF GABA

Abstract— Synaptosomal release and exchange of [³H]GABA were studied by a superfusion technique which minimizes reuptake. The release of [³H]GABA was increased by depolarizing concentrations of KCl and showed calcium-dependence. Superfusion with 1-1000 μ m unlabelled GABA caused a dose dependent, saturable increase in the release of radioactivity by homoexchange. The exchange process showed high substrate specificity: among the various amino acids and putative neurotransmitters tested, only γ-amino-β-hydroxybutyric acid was a good stimulator of [³H]GABA release. Superfusion with sodium-free medium (NaCl replaced by sucrose) virtually abolished homoexchange. Ouabain also increased the release of [³H]GABA, and its action was additive to that of unlabelled GABA.
The presence of exchange at concentrations that are in the range of the high affinity uptake system, the apparent similarity between calculated rates of exchange and initial uptake rates, the non-detectability of exchange in a condition (Na⁺ deprivation) which inhibits high affinity uptake, and the lack of decrease of actual GABA concentration in incubation media used for uptake experiments, all suggest that homoexchange accounts for a substantial part of the synaptosomal accumulation of [³H]GABA generally interpreted as high affinity uptake.     

Lindane Administration to the Rat Induces Modifications in the Regional Cerebral Binding of [3H]Muscimol, [3H]-Flunitrazepam, and t-[35S]Butylbicyclophosphorothionate: An Autoradiographic Study

Abstract: The effect of lindane administration on the specific binding of ligands to different sites on the GABA_A receptor-ionophore complex was studied in the rat brain by receptor mapping autoradiography. [³H]Muscimol (Mus), [³H]flunitrazepam (Flu), and t -[³⁵S]butylbicyclophosphorothionate (TBPS) were used as specific ligands of GABA, benzodiazepine, and picrotoxinin binding sites, respectively. Rats received a single oral dose of 30 mg/kg lindane and they were classified into two groups according to the absence or presence of convulsions. Vehicle-treated groups acted as controls. The effect of the xenobiotic on ligand binding was measured in different brain areas and nuclei 12 min or 5 h after its administration. Lindane induced a generalized decrease in [³⁵S]TBPS binding, which was present shortly after dosing. In addition, [³H]Flu binding was increased in lindane-treated animals, this modification also appearing shortly after administration but diminishing during the studied time. Finally, lindane induced a decrease in [³H]Mus binding, which became more evident over time. These modifications were observed both in the presence and in the absence of convulsions. However, an increase in [³H]-Mus binding was detected shortly after lindane-induced convulsions. The observed decrease in [³⁵S]TBPS binding is in agreement with the postulated action of lindane at the picrotoxinin binding site of the GABA_A receptor chloride channel. The effects observed on the binding of [³H]Flu and [³H]Mus may be secondary to the action of lindane as an allosteric antagonist of the GABA_A receptor.     

THE SUBCELLULAR DISTRIBUTION OF [14C]GABA AND [3H]DOPAMINE IN THE RETINA

Abstract— Rabbit retinae were homogenized in isotonic sucrose and subjected to differential and density gradient centrifugation. Preliminary electron microscopic examination of some of the fractions indicated that in addition to the subcellular particles usually observed in brain homogenates, the photoreceptor cells gave rise to several characteristic fragments. These included fragmented outer limbs, aggregations of mitochondria from the inner segments, and photoreceptor terminals. Unlike the synaptosomes formed from the conventional type of synapses in the retina, these photoreceptor terminals appeared to sediment mainly in the low speed crude nuclear pellet (P1).
Retinae were incubated with low concentrations of [¹⁴C]GABA and/or [³H]dopamine prior to subcellular fractionation and in these experiments the P2 pellet was further fractionated on sucrose density gradients. Analysis of the radioactivity in the fractions showed that labelled GABA was accumulated by osmotically sensitive particles which had the sedimentation characteristics of synaptosomes. The panicles accumulating [³H]dopamine appeared to belong to a different, slightly lighter, population than those accumulating [¹⁴C]GABA. It is tentatively suggested that the particles accumulating labelled GABA were synaptosomes because the fractions containing these particles also possessed most of the GAD activity of the gradient. In contrast, GABA-T and MAO activity was found in the dense fractions of the gradients usually associated with mitochondria.
When retinae were incubated with a high concentration of labelled GABA a'lighter'population of particles seemed to accumulate the amino acid than when a low external GABA concentration was used. These results suggest that the high and low affinity uptake processes for GABA in the retina may have different cellular sites.     

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.     

SUBCELLULAR DISTRIBUTION OF ENDOGENOUS AND [3H] γ-AMINOBUTYRIC ACID IN RAT CEREBRAL CORTEX

Abstract— Slices of rat cerebral cortex were labelled by incubation with [³H]γ-aminobutyric acid (GABA) and homogenized in isotonic sucrose. The subcellular distributions of endogenous GAB A, [³H]GABA and glutamate decarboxylase (GAD) were studied by density gradient centrifugation. The subcellular distributions of the labelled and endogenous amino acid were remarkably similar, indicating that [³H]GABA is taken up into the endogenous GABA pool. About 40 per cent of both endogenous and [³H]GABA were recovered in particles which were tentatively identified as synaptosomes from their equilibrium density and sensitivity to osmotic shock. In slices labelled with [³H]GABA and [¹⁴C]α-aminoisobutyric (AIB) acid, significantly more [³H]GABA was recovered in paniculate fractions than [¹⁴C]AIB. About 80 per cent of the enzyme GAD was also recovered in the same particle fractions which contained [³H]GABA and endogenous GABA. Evidence is presented which suggests that a loss of particle-bound GABA occurs during subcellular fractionation procedures.     

Comparison of the Kinetics of [3H]Diazepam and [3H]Flunitrazepam Binding to Cortical Synaptosomal Membranes

Abstract: [³H]Diazepam and [³H]flunitrazepam ([³H]FNP) binding to washed and frozen synaptosomal membranes from rat cerebral cortex were compared. In Tris-citrate buffer, γ -aminobutyric acid (GABA) and NaCl both increased [³H]diazepam binding more than [³H]FNP binding. GABA and pentobarbital both enhanced this effect of NaCl. Because of the extremely rapid dissociation of [³H]diazepam in the absence of NaCl and GABA, the B_max (maximal binding capacity) was smaller by the filtration assay than by the centrifugation assay. [³H]FNP, which dissociates more slowly, had the same B_max in both assays. [³H]Diazepam association had two components, and was faster than [³H]FNP association. [³H]Diazepam dissociation, which also had two components, was faster than that of [³H]FNP, and also had a greater fraction of rapidly dissociating species. [³H]FNP dissociation was similar when initiated by diazepam, flunitrazepam, clonazepam, or Ro15-1788, which is a benzodiazepine antagonist. [³H]Diazepam dissociation with Ro15-1788, flunitrazepam, or clonazepam was slower than with diazepam. GABA and NaCl, but not pentobarbital, increased the percentage of slowly dissociating species. This effect of NaCl was potentiated by GABA and pentobarbital. The results support the cyclic model of benzodiazepine receptors existing in two interconvertible conformations, and suggest that, distinct from their binding affinity, some ligands (like flunitrazepam) are better than others (like diazepam) in inducing the conversion of the receptor to the higher-affinity state.