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.     

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.     

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.     

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.     

SYNTHESIS AND RELEASE OF [14C]ACETYLCH0LINE IN SYNAPTOSOMES

Abstract— Synaptosomes took up [¹⁴C]choline, about half or more of which was converted to [^I4C]acetylcholine when incubated in an appropriate medium containing 1 to 5 μ M-[¹⁴C] choline and neostigmine. The amount of [¹⁴C]acetylcholine synthesized in synaptosomes increased in parallel with the increase of Na⁺ concentration in the incubation medium. The effect of Na⁺ on the uptake of [^I4C]choline into synaptosomes was dependent on the concentration of choline in the incubation medium.
About 25 per cent of [¹⁴C]acetylcholine synthesized in synaptosomes was released rapidly into the medium by increasing the K⁺ concentration in the medium from 5 m m to 35 m m . The change of Na⁺ concentration hardly affected the release of [¹⁴C]acetylcholine. The effect of K⁺ on the release of [¹⁴C]choline was rather small compared to that on [¹⁴C] acetylcholine. Ouabain promoted the release of [¹⁴C]acetylcholine.     

L-GLUTAMIC ACID DECARBOXYLASE IN NON-NEURAL TISSUES OF THE MOUSE

Abstract— Low levels of γ-aminobutyric acid (GABA) and of glutamic acid decarboxylase (GAD) activity have been detected in mouse kidney, liver, spleen and pancreas. Quantitation of both ¹⁴CO₂ and [¹⁴C]GABA produced in radiometric assays from [U-¹⁴CJglutamic acid has shown that measurement of ¹⁴CO₂ evolution alone is not, in all cases, a valid estimate of true GAD activity. As evidenced by increased ^,14CO₂ production upon addition of NAD and CoA to assay mixtures, radiometric assay of GAD activity in crude homogenates may yield ¹⁴CO₂ via the coupled reactions of glutamic acid dehydrogenase and a-ketoglutarate dehydrogenase. The addition of 1 mM aminooxyacetic acid (AOAA) to assays of kidney homogenates inhibited [^,14C]GABA production 92 per cent while ¹⁴CO₂ production was inhibited only 53 per cent. No evidence was found to confirm the reported existence of a second form of the enzyme, GAD II. previously described by Haber el al. (H aber B., K uriyama K. & R oberts E. (1970) Biochem. Pharmac. 19, 1119-1136). Based on sensitivity-to AOAA and chloride inhibition, the GAD activity in mouse kidney is. apparently, indistinguishable from that of neural origin.     

ISOLATION OF HYDROPHOBIC PROTEINS BINDING NEUROTRANSMITTER AMINOACIDS. GLUTAMATE RECEPTOR OF THE SHRIMP MUSCLE

Abstract— –Muscle of shrimps ( Artemisia longinaris ) were extracted with chloroform-methanol (2:1, v/v) and the proteolipids were separated by column chromatography on Sephadex LH-20. Three peaks of protein were eluted with chloroform and one with chloroform-methanol (4:1, v/v). Only the first peak eluted between 16 and 26 ml of chloroform showed binding for l -(¹⁴C]-glutamate. The type of saturation curve obtained suggests the existence of single type of binding site. The saturation is reached at one mole of l -glutamate per 320,000 g protein and the purification achieved about 3200-fold. The protein binding-glutamate does not bind GABA, aspartate or glutamine. The binding of l -[¹⁴C]-glutamate was inhibited by dl -α -methyl glutamic acid and l -glutamic acid diethyl ester. The binding properties of this hydrophobic protein fraction suggest that it may represent the isolated glutamate receptor of the shrimp muscle.     

NEUROTRANSMITTER UPTAKE INTO SLICES OF RAT CEREBRAL CORTEX IN VITRO: EFFECT OF SLICE SIZE

Abstract— The uptake of [¹⁴C]GABA, [¹⁴C]taurine, [³H] β -alanine and [¹⁴C]dopamine was compared in slices of rat cerebral cortex of three different sizes (0.1 × 0.1 × 2 mm, 0.2 × 0.2 × 2 mm and 0.4 × 0.4 × 2 mm prepared with a mechanical tissue chopper). [¹⁴C]Taurine and [³H] β -alanine uptake increased whereas [¹⁴C]GABA uptake decreased with increasing slice size. [¹⁴C]Dopamine uptake was optimal in 0.2 × 0.2 × 2 mm slices. Increasing slice size was shown to decrease inhibition of [³H] β -alanine and [¹⁴C]GABA uptake by l -2,4-diaminobutyric acid. Lactate dehydrogenase activity increased with increasing slice size indicating decreased tissue damage or increased cellular integrity. The possibility that varying slice size can be used to distinguish between neuronal and glial uptake is discussed. It is suggested that taurine uptake in the cerebral cortex is predominantly glial.     

UPTAKE OF [14C]NIPECOTIC ACID INTO RAT DORSAL ROOT GANGLIA

Abstract— [¹⁴C]Nipecotic acid was accumulated in isolated desheathed rat dorsal root ganglia by a saturable process with K _m= 48.8 μ m and V _max= 2.2 nmol/g/min. The concentration of l -2.4-diamino-butyric acid required to inhibit the uptake of nipecotic acid by 50% was three times the concentration of β-alanine required to do the same. Light microscopic autoradiography indicated that the sites of uptake of [¹⁴C]nipecotic acid were principally confined to satellite glial cells. It is concluded that nipecotic acid is transported by the GABA uptake system in glia but that it has less affinity for this system than GABA.     

Differential Transmitter Release from Nerve Terminals Isolated from Basal Ganglia and Substantia Nigra

Abstract: The K⁺-induced release of amino acids and dopamine from synaptosomes of basal ganglia and substantia nigra of sheep was studied. K⁺ (56 mM) caused an increase in the release of GABA from caudate, putamen, globus pallidus, and substantia nigra, the increased release being 227, 171, 198, and 366%, respectively, compared with samples incubated without stimulation. The release of glutamate was also increased by 56 mM-K⁺ (136–183%) from all regions except the globus pallidus, and a significant release of aspartate was only seen in response to K⁺ stimulation of synaptosomes from putamen (50%). Veratrine (75 μM) also stimulated a similar pattern of amino acid release from these regions. Regional correlation was shown between the presence of an uptake system for an amino acid and its evoked release. [¹⁴C]Dopamine formed from L-[U-¹⁴C]tyrosine was released only from caudate and putamen synaptosomes by K⁺ stimulation, the increases being 105% and 74%, respectively. Synthesis of [¹⁴C]dopamine from L-[U-¹⁴C]tyrosine occurred only in synaptosomes prepared from these two regions and was not detected in synaptosomes from substantia nigra or globus pallidus although whole-tissue homogenates of substantia nigra were able to synthesise dopamine.     

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.     

ON THE MECHANISM OF OUABAIN INHIBITION OF SYNAPTOSOME PROTEIN SYNTHESIS

Abstract— Ouabain (200μ m ) inhibited incorporation of radiolabelled leucine or glycine into the protein of neonatal synaptosome fractions but had minimal effect on preparations from adult rats. Leucine uptake into synaptosomes was rapid but not influenced by 200μ m -ouabain in contrast to ouabain inhibition of [¹⁴C]glycine and [¹⁴C]γ-aminobutyric acid uptake. Ouabain blocked the Na⁺ -dependent (stimulated) component of synaptosome fraction protein synthesis in the presence of 25m m -K⁺. Ouabain inhibition was not alleviated by addition of ADP or ATP. 100μ m -atractylate failed to influence [³H]leucine uptake or incorporation. Synergistic inhibition by ouabain was observed with the cycloheximide-sensitive component of protein synthesis and the chloramphenicol sensitive phase. Increasing the medium Ca²⁺ concentration stimulated protein synthesis and this stimulated component was inhibited by ouabain. Ouabain inhibition was associated with decreasing intraterminal K⁺ concentration and [K]_i was linearly related to the protein synthesis rate in control and ouabain treated preparations.     

FACTORS AFFECTING THE SPONTANEOUS RELEASE OF [3H] γ-AMINOBUTYRIC ACID FROM THE FROG RETINA IN VITRO

Abstract— The spontaneous efflux of [³H]GABA and its metabolites from the frog retina has been studied. The efflux of radioactivity was multiphasic in the presence or absence of amino-oxyacetic acid (AOAA), an inhibitor of GABA metabolism, and was not affected by light or dark adaptation.
Strong retention of radioactivity was evident in the presence of AOAA, about 90% of the label remaining in the tissue after 4 h superfusion. Under these conditions, increases in the rate of release of radioactivity were evoked by electrical stimulation, 40 m m -potassium. unlabelled GABA (5 m m ), ouabain (5 × 10⁻⁵ m ) and the absence of calcium. The amount of [³H]GABA released by electrical stimulation was not markedly calcium dependent, whereas the response to 40 m m -potassium was reduced by 96% in the absence of calcium.     

UPTAKE OF [14C]ASPARTIC ACID AND [14C]GLUTAMIC ACID BY RETINAL SYNAPTOSOMAL FRACTIONS

Abstract— Uptake systems for [¹⁴C]aspartate and [¹⁴C]glutamate were characterized in two distinct synaptosomal fractions solated from rabbit retina. The P, synaptosomal fraction was highly enriched in large photoreceptor cell synaptosomes but contained very few conventional sized synaptosomes from amacrine, horizontal or bipolar cells. In contrast, the P₂ synaptosomal fraction contained numerous conventional sized synaptosomes and was virtually free of photoreceptor cell synaptosomes. Both synaptosomal fractions took up [¹⁴C]aspartate and [¹⁴C]glutamate with high affinity [ K _m= 1–2μM). Uptake characteristics were similar to those described for high affinity uptake systems in brain synaptosomes, i.e. saturation kinetics; temperature and Na⁺ dependence. Although the presence of a high affinity uptake system is not a definitive criterion for demonstration of functional neurotransmitter systems, it is an important and necessary prerequisite and can thus be considered as supportive evidence for the involvement of asparate and glutamate in neurotransmission in rabbit retina.     

COMPARATIVE STUDIES ON THE DEGRADATION OF GABA and TAURINE IN THE BRAIN

Abstract— The degradation of taurine and GABA in mammalian brain was studied in vivo and in vitro. Small amounts of [³⁵S]isethionate (10–20 pmol/g brain wet weight) and [³⁵S]sulphate (about 2 pmol/g) were detected in mouse brain after intramuscular injection of [³⁵S]taurine. Taurine also produced isethionate in rat brain homogenates (about 20 nmol/h/g protein) and subcellular fractions (about 40 nmol/h/g protein in synaptosomes and about 300 nmol/h/g in mitochondria), but the reaction was not stimulated either by external electrical pulses or by the addition of various cofactors (NAD and NADP in both oxidized and reduced forms, riboflavin, glutathione. pyridoxal-5'-phosphate, ATP) to the incubation medium. [¹⁴C]GABA was readily metabolized to [¹⁴C]succinate both in vivo and in vitro. Isethionate formation activity was concentrated in the mitochondrial fraction, as was also GABA-T activity. Partially purified GABA-T from calf brain also slightly catalysed the formation of [³⁵S]isethionate (about 1.3 μmol/min/g protein) from [³⁵S]taurine. It appears that the slight formation of isethionate from taurine is coupled to GABA-T activity. The formation of isethionate from taurine is so small, that it apparently has no role in the control of the brain taurine pool.     

Release of Neurotransmitter Amino Acids from Synaptosomes: Enhancement of Calcium-Independent Efflux by Oleic and Arachidonic Acids

Abstract: The release of preloaded [¹⁴C]neuroactive amino acids (glutamic acid, proline, γ-aminobutyric acid) from rat brain synaptosomes can occur via a time-dependent, Ca²⁺ -independent process. This Ca²⁺-independent efflux is increased by compounds that activate Na⁺ channels (veratridine, scorpion venoms), by the ionophore gramicidin D, and by low concentrations of unsaturated fatty acids (oleic acid and arachidonic acid). Saturated fatty acids have no effect on the efflux process. Neither saturated nor unsaturated fatty acids have an effect on the release of [¹⁴C]leucine, an amino acid not known to possess neurotransmitter properties. The increase in the efflux of neuroactive amino acids by oleic and arachidonic acids can also be demonstrated using synaptosomal membrane vesicles. Under conditions in which unsaturated free fatty acids enhance amino acid efflux, no effect on ²²Na⁺ permeability is observed. Since Na⁺ permeability is not altered by fatty acids, the synaptosomes are not depolarized in their presence and, thus, the Na⁺ gradient can be assumed to be undisturbed. We conclude that unsaturated fatty acids represent a potentially important class of endogenous modulators of neuroactive amino acid transport in nerve endings and further postulate that their action is the result of an uncoupling of amino acid transport from the synaptosomal Na⁺ gradient.     

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.     

Ca2+ UPTAKE BY SYNAPTOSOMES AND ITS EFFECT ON THE INHIBITION OF ACETYLCHOLINE RELEASE BY BOTULINUM TOXIN

Abstract— ⁴⁵Ca²⁺ uptake by cerebral cortex synaptosomes was determined by gel filtration, glass fibre disc filtration under suction and by centrifugation with EGTA present. The filtration methods gave comparable results which were higher than values obtained by the centrifugation method. Uptake was increased by 25mM-K⁺ at all times investigated. The accumulated ⁴⁵Ca²⁺ was bound within the synaptosome. ⁴⁵Ca²⁺-ionophore A23187 stimulated uptake only during the first min; levels of intra-synaptosomal ⁴⁵Ca²⁺ then returned to control values. A23187 also increased intra-synaptosomal Na⁺ and Cl⁻ contents. Botulinum toxin inhibits the K.⁺-stimulated release of [¹⁴C]ACh from synaptosomes but the ionophore released [¹⁴C]ACh from both normal and botulinum-treated preparations in a Ca²⁺-dependent manner. However, it also elicited Ca²⁺-dependent release of [choline. Increased extracellular Ca²⁺ (10 mM and 20 mM) released [¹⁴C]ACh (but not [¹⁴C]choline) from both normal and botulinum-treated synaptosomes. It is concluded that botulinum toxin interferes with the provision of Ca²⁺ essential for the mechanism of ACh release.     

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.     

GABA UPTAKE IN RAT CENTRAL NERVOUS SYSTEM: COMPARISON OF UPTAKE IN SLICES AND HOMOGENATES AND THE EFFECTS OF SOME INHIBITORS

Abstract— Fifty-two substances were tested as inhibitors of the uptake of [³H]GABA in slices of rat cerebral cortex. Among GABA analogues tested, only the 2-fluoro, 3-hydroxy and 2-amino compounds had affinities for the uptake mechanism comparable to that of GABA. [³H]GABA uptake was also potently inhibited by p -chloromercuriphenylsulphonate, N -ethylmaleimide, chlorpromazine and haloperidol. No inhibitors were found to act in a competitive manner with respect to GABA. [³H]GABA uptake was also examined in homogenates of cerebral cortex and other regions of CNS. There was a rapid uptake of [³H]GABA into particles when homogenate samples were incubated with the labelled amino acid; this uptake had similar kinetic properties and inhibitor sensitivity to that observed in slices of intact tissue. Density gradient centrifugation experiments indicated that the particles responsible for the uptake of [³H]GABA in homogenates were probably synaptosomes. Uptake of [³H]GABA also occurred in slices and homogenates of rat spinal cord, and evidence was obtained by the simultaneous labelling of homogenates with [¹⁴C]glycine and [³H]GABA that these two amino acids were taken up by different nerve terminals in this region.