POTASSIUM-INDUCED RELEASE OF [3H]GABA AND OF [3H]NORADRENALINE FROM NORMAL AND RESERPINIZED RAT BRAIN CORTEX SLICES. DIFFERENCES IN CALCIUMDEPENDENCY, AND IN SENSITIVITY TO POTASSIUM IONS

The release of [³H]GABA induced by elevated extracellular potassium (K)_o, from thin rat brain cortex slices, has been compared with that of [³H]noradrenaline ([³H]NA), released by the same procedures, both from normal slices, and from slices pre-treated with reserpine and nialamide, [³H]NA being predominantly a vesicular component in the former situation, and a soluble substance in the latter one. 46 mM-(K)_o released considerably more [³H]NA from normal than from drug-treated slices, while the release of GABA was about two thirds of the latter. When 4min ‘pulses’ of increasing concentrations of potassium were applied, it was observed that the release of GABA and of [³H]NA from drug-treated slices increased in proportion to (K)_o, up to 36-46 mM and then declined considerably with higher (K)_o. The dependency of potassium-induced release on the concentration of calcium in the medium, indicated that release of [³H]NA from normal slices was proportional to calcium up to 1.5-2 mM, while that of [³H]NA from drug-treated slices increased up to 0.5 mM-Calcium, and then declined with higher concentrations. GABA release also increased up to 0.5 mM-calcium, but no further changes were observed at higher concentrations. The calcium antagonist D-600 inhibited high (K)_o-induced release of [³H]NA from normal slices to a greater extent than that of [³H]GABA or of [³H]NA from drug-treated slices. These results, in which elevated (K)_o-induced release of [³H]GABA resembles considerably that of soluble NA, but differs from that of NA present in synaptic vesicles, suggest that release of [³H]GABA also occurs from the soluble cytoplasmic compartment, and that the partial calcium requirement that is found is unrelated to that of transmitter secretion. These findings are also a further indication of the lack of specificity of elevated (K)_o as a stimulus for inducing transmitter secretions.     

Relationships between ethylenediamine and GABA transport systems in rat brain slices

[¹⁴C]EDA was accumulated by slices of adult rat cerebral cortex, although the tissue:medium ratios achieved were very much lower than those for GABA. EDA uptake was temperature dependent and appeared to take place by both sodium dependent and sodium independent mechanisms. Kinetic analysis of the uptake revealed a major low affinity component with an apparent K_m of 1.11 ± 0.05 mM and a V_max of 9.8 ± 0.2 μmol/hg wet wt, with a second site of K_m about 20 μM but a 50 fold lower V_max. Inhibition studies indicate that EDA may be transported in part by the ‘small basic’ amino acid transport system and in part by polyamine systems shown to be present in CNS tissue. High levels of displaceable binding of radioactive EDA to glass-fibre filters were observed; studies using [¹⁴C]EDA may be complicated by binding to tissue macromolecules. Potassium stimulated, calcium dependent release of radioactivity from brain slices labelled with [¹⁴C]EDA in the presence of sodium ions was observed. Extracellular EDA stimulated the release of [³H]GABA and [³H]beta-alanine from preloaded slices, although GABA and beta-alanine did not stimulate [¹⁴C]EDA release. It appears that extracellular EDA can counterexchange with intracellular GABA or beta-alanine, but that EDA which is accumulated by the tissue may then be bound or move to pools not directly accessible to these amino acids. Ouabain released radioactivity from slices labelled by [¹⁴C]EDA in the presence of sodium but not from slices labelled in the absence of sodium. These results suggests that EDA is not acting simply as a substrate for GABA transport sites.     

UPTAKE AND RELEASE OF TAURINE FROM CEREBRAL CORTEX SLICES AND THEIR SUBCELLULAR COMPARTMENTS

—Cortex slices, synaptosomes and C-6 glioma cells were used to study [³⁵S]taurine uptake and its electrically-stimulated release. After exposure to taurine at two concentrations, the synaptosome preparation subsequently derived from the slices contained 41% of the particle-bound taurine and 16% of the total in the tissue. The uptake of [¹⁴C]GABA by C-6 glioma cells was inhibited 3-fold more by β-alanine than by l -DABA, whilst synaptosome preparations showed the opposite pattern, l -DABA being 2 or 3 times more effective than β-alanine. [³⁵S]Taurine uptake inhibition by l -DABA was low for synaptosomes and C-6 glioma, whereas β-alanine showed considerable effect on C-6 glioma (41%) and slices of white matter (ependyma; 50%). Synaptosome preparations showed little effect with β-alanine. When 30 min rather than 5 min incubations were employed, β-alanine depressed [³⁵S]taurine uptake by cortex slices by 30%. Taurine was taken up by a calcium-dependent mechanism and subcellular fractionation indicated that the synaptosome fraction showed losses commensurate with the net taurine release when low stimulation currents were used.     

EVIDENCE FOR THE HETEROGENEITY OF L-2,4-DIAMINOBUTYRIC ACID UPTAKE IN RAT CORTEX

The uptake of L-[³H]DABA by rat cerebral cortex slices was studied. Analysis of the kinetic data obtained provides evidence that DABA entry is mediated by both high and low affinity carriers. When cortical slices were incubated in the presence of equimolar [³H]DABA and [¹⁴C]GABA the ratio of entry of the two radionuclides was found to depend upon the loading concentration. The specificity of the uptake of 1 μM and 1 mM-L-DABA was examined: GABA and DABA were relatively potent inhibitors of 1 μM-DABA uptake whereas an equal concentration of histidine did not produce significant inhibition. In contrast, DABA and histidine were markedly more potent as inhibitors of 1 mM-DABA uptake than was GABA. It is concluded from these experiments that L-DABA is transported into cortical slices by a carrier which has high affinities for both DABA and GABA and by a second lower affinity carrier which prefers DABA as a substrate to GABA. On the basis of a comparison of the effects of inhibitors on [³H]DABA and [³H]GABA uptake it is estimated that approx 26% of DABA uptake at 1 μM does not occur by the high affinity carrier whereas at 1 mM-DABA this proportion rises to 62–67%.     

Preferential release of newly synthesized [3H]GABA from striatal slices to preloaded [3H]GABA

The release of [³H]GABA which is newly synthesized from [³H]l-glutamic acid (GLU) has been examined using striatal slices obtained from the rat brain. It was found that 8–10% of [³H]GLU transported was converted to [³H]GABA during the incubation of striatal slices in the presence of nipecotic acid (5 × 10^?5 M). Nipecotic acid was added to the medium in order to prevent possible reuptake of [³H]GABA released during its synthesis, and it was found to have no significant effect on the formation of [³H]GABA from [³H]GLU as well as on the uptake of [³H]GLU. The application of high potassium (60 mM) stimulation exhibited a significant enhancement of the release of this newly synthesized [³H]GABA in a Ca²⁺ dependent manner. Kinetic analysis revealed that the evoked release of newly synthesized [³H]GABA was approximately two times greater than that of previously-loaded [³H]GABA, whereas no significant difference was observed in the spontaneous release. An immobilization stress in water failed to affect the release of newly synthesized [³H]GABA from striatal slices despite the occurrence of a significant enhancement of GABA formation in this structure.These results suggest that newly synthesized GABA may be preferentially released from its nerve terminals in response to the excitation of neurons at least in the striatum as compared with previously accumulated GABA.     

Effect of Nipecotic Acid, a γ-Aminobutyric Acid Transport Inhibitor, on the Turnover and Release of γ-Aminobutyric Acid in Rat Cortical Slices

Abstract: To see the effect of a γ-aminobutyric acid GABA uptake inhibitor on the efflux and content of endogenous and labeled GABA, rat cortical slices were first labeled with [³H]GABA and then superfused in the absence or presence of 1 mM nipecotic acid. Endogenous GABA released or remaining in the slices was measured with high performance liquid chromatography, which was also used to separate [³H]GABA from its metabolites. In the presence of 3 mM K⁺, nipecotic acid released both endogenous and [³H]GABA, with a specific activity four to five times as high as that present in the slices. The release of labeled metabolite(s) of [³H]GABA was also increased by nipecotic acid. The release of endogenous GABA evoked by 50 mM K⁺ was enhanced fourfold by nipecotic acid but that of [³H]GABA was only doubled when expressed as fractional release. In a medium containing no Ca²⁺ and 10 mM Mg²⁺, the release evoked by 50 mMK⁺ was nearly suppressed in either the absence or the presence of nipecotic acid. In the absence of nipecotic acid electrical stimulation (bursts of 64 Hz) was ineffective in evoking release of either endogenous or [³H]GABA, but in the presence of nipecotic acid it increased the efflux of endogenous GABA threefold, while having much less effect on that of [³H]GABA. Tetrodotoxin (TTX) abolished the effect of electrical stimulation. Both high K⁺ and electrical stimulation increased the amount of endogenous GABA remaining in the slices, and this increase was reduced by omission of Ca²⁺ or by TTX. The results suggest that uptake of GABA released through depolarization is of major importance in removing GABA from extracellular spaces, but the enhancement of spontaneous release by nipecotic acid may involve intracellular heteroexchange. Depolarization in the presence of Ca²⁺ leads to an increased synthesis of GABA, in excess of its release, but the role of this excess GABA remains to be established.     

VITAMIN B6 TRANSPORT IN THE CENTRAL NERVOUS SYSTEM: IN VITRO STUDIES

Abstract— The transport into and release of tritium labeled vitamin B₆ ([³H]B₆) from rabbit brain slices and isolated choroid plexuses were studied. In vitro, both brain slices and choroid plexus concentrated [³H]B₆ by an energy dependent uptake system when [³H]pyridoxine (PIN) was added to the incubation medium. Most of the [³H] within the tissues was phosphorylated [³H]B₆. In each tissue, the nonphosphorylated vitamers inhibited the uptake of [³H]PIN from the medium significantly more than the phosphorylated vitamers. The concentrations of the nonphosphorylated B₆ vitamers necessary to inhibit brain and choroid plexus uptake of [³H]PIN from the medium by 50% were approx 0.4 μm and 5–10μm respectively after a 30 min incubation. Both brain slices and choroid plexus readily released (46 and 56% respectively in 30 min) previously accumulated [³H]B₆ into artificial CSF. However, brain slices released only nonphosphorylated [³H]B₆, whereas the choroid plexus released predominantly phosphorylated [³H]B₆. Addition of unlabeled PIN to the release media significantly increased the percentage of [³H]B₆ released by both brain slices and choroid plexus. The results of these in vitro studies provide evidence that: (1) both brain slices and chloroid plexus possess specific uptake and release mechanisms for B₆, and (2) these mechanisms tend to regulate intracellular B₆ levels. These studies also suggest that the choroid plexus serves as a locus for the transfer of B₆ from blood to CSF and is the source of most of the phosphorylated B₆ in CSF.     

l-serine and GABA uptake by synaptosomes during postnatal development of rat

Postnatal development changes in mechanisms of synaptosomal amino acid transport have been studied in rat cerebral cortex. Specific uptake of radiolabeled l-serine was examined and compared with that of radiolabeled GABA using synaptosomes-enriched fractions freshly prepared from cerebral cortex at different postnatal days from the birth to young adulthood. The preparations were incubated with 10 nM of [³H]l-serine and 10 nM of [³H]-GABA in either the presence or absence of NaCl, KCl or choline chloride, at 2 and 30 °C, for different periods up to 30 min. The uptake of [³H]l-serine was temperature dependent in synaptosomal fractions prepared from cerebral cortex of rats in postnatal days 5, 7, 13 and 21, but stronger dependence was observed in adult brain, irrespective of the presence of Na⁺, K⁺ or choline ions. At all postnatal ages studied, [³H]-GABA uptake showed a high activity in the presence of Na⁺ ions and at 30 °C. The values of K_m were 90–489 μM in l-serine uptake. However, in the uptake of GABA the values of K_m were 80–150 μM. The highest values of V_max were obtained at 5 and 21 postnatal days for both transport systems. These results indicate that the uptake of l-serine and GABA are regulated differentially during postnatal development.     

THE UPTAKE OF BIOGENIC MONOAMINES BY THE ISOLATED AURICLE OF THE SNAIL (HELIX POMATIA)

—The uptake of [³H]5HT, [³H]dopamine, [³H]noradrenaline and [³H]octopamine into the auricle of Helix pomatia was studied. When tissues were incubated at 25°C in media containing radioactive amines, tissue:medium ratios of about 49:1, 14:1 and 5:1 for 5-HT, dopamine, noradrenaline, and octopamine respectively were obtained after a 20–30 min incubation time. Tissues incubated at 25°C in media containing radioactive amines for 20–30 mins showed that almost all (96%) the radioactivity was present as unchanged [³H]5-HT, [³H]dopamine, [³H]octopamine or [³H]noradrenaline. The high tissue:medium ratios for 5-HT and dopamine, but not for noradrenaline and octopamine, showed saturation kinetics which were dependent upon temperature and sodium ions. From the Lineweaver–Burk plots, two uptake mechanisms for 5-HT at 25°C were resolved; the high affinity uptake process having a K_m1 value of 6.0 ± 10^?8m and a V_m1 value of 0.115 nmol/g/min while the lower affinity process had a K_m2 value of 1.04 ± 10^?6m and a V_m2 value of 0.66nmol/g/min. At 0°C a single uptake mechanism for 5-HT occurred which gave a K_m value of 5.02 ± 10^?8m and a V_m value of 0.0165 nmol/g/min. In the case of dopamine, the Lineweaver–Burk plot at 25°C showed a single uptake process with values for K_m and V_m of 1.55 ± 10^?7m and 0.086 nmol/g/min respectively. This process did not function at 0°C. The effect of various agents and ions upon the accumulation processes for all amines was also studied, and the data indicate that the same neurons probably accumulate more than one amine type. It is concluded that 5-HT and dopamine uptake in the auricle is a mechanism for inactivating these substances at 25°C and that an uptake mechanism for 5-HT also functions at 0°C. The results are discussed from the point of view of 5-HT's being the cardioexcitatory substance in the snail heart.     

Substrate Specificity of [3H] Muscimol Binding to a Particulate Fraction of a Neuron-enriched Culture of Embryonic Rat Brain

Abstract: The effects of some GABA analogues and some drugs on the binding of [³H]muscimol (3.08 nM) to thoroughly washed subcellular particles prepared from a neuron-enriched culture of embryonic rat brain were examined using Na+-free Tris-citrate medium and a centrifugation method. Competition for [³H]muscimol binding sites by excess(10^?5 M) unlabelled GABA provided estimates of “specific” binding. In accord with in vivo neuropharmacological studies on GABA receptors and with in vitro studies on cerebral membrane preparations, [³H]muscimol binding was potently inhibited by muscimol itself (IC₅₀, 2.5 nM), GABA (1C₅₀, 43 nM), isoguvacine (IC₅₀, 61 nM), and 3-aminopropanesulphonic acid (IC₅₀, 160 nM), and less potently inhibited by the GABA antagonist bicuculline methobromide (IC₅₀, 800 nM). δ- Aminovaleric acid (IC₅₀, 2.6 μM), the glycinelp-alanine antagonist strychnine (IC₅₀, 6.6 μM), and the predominantly glial GABA uptake inhibitors β-alanine (IC₅₀, 23 μM) and p-proline (IC₅₀, 66 μM) also inhibited [³H]muscimol binding. Other inhibitors of Na+-dependent GABA uptake, (±)-nipecotic acid, L- 2,4-diaminobutyric acid, and guvacine, as well as picrotoxinin, were relatively inactive as inhibitors of [³H]muscimol binding (IC₅₀≥ 1 mM). In addition to revealing that GABA receptors are present on neuronal membranes before the formation of most synapses, this binding of [³H]muscimol that occurs to neuronal, but not to glial, membranes might be useful as a “neuronal marker” and for the further characterization and isolation of GABA receptors.     

RELEASE OF [3H]GABA FROM RAT CORTICAL SLICES: NEURONAL VS GLIAL ORIGIN 1

Abstract— The effect of L-2,4 diaminobutyric acid (DABA) and β-alanine on the K⁺ stimulated release of [³H]GABA was examined using a continuous superfusion system in which a carrier mediated exchange diffusion could be demonstrated between [³H]GABA in preloaded rat cortical slices and unlabeled DABA and β-alanine in the superfusion medium. These structurally related amino acids were chosen to investigate the source of releasable [³H]GABA because of evidence suggesting they may have differing affinities for the GABA carrier transport system that are specific for neurons and glia, DABA having a greater affinity for the neuronal GABA system and β-alanine for the glial. Five millimolars-DABA in the superfusion medium nearly abolished the K⁺ stimulated release of [³H]GABA whereas β-alanine had little effect. The results and conclusions are discussed in terms of a postulated carrier mediated exchange of unlabeled DABA with a specific neuronal pool of [³H]GABA interfering with the K⁺ stimulated release of the radiolabeled GABA. The results provide indirect evidence in favor of a neuronal pool as the source of releasable [³H]GABA in this system.     

Binding of [3H] γ-Aminobutyric Acid and [3H]Muscimol in Purified Rat Brain Synaptic Plasma Membranes and the Effects of Bicuculline

Abstract: The binding of [³H] γ-aminobutyric acid ([³H]GABA) and [³H]muscimol has been studied in purified synaptic plasma membrane (SPM) preparations from rat brain. Scatchard analysis of specific binding (defined as that displaced by 100 μMγ-aminobutyrate) indicated that the binding of both radiolabelled ligands was best described by a two component Langmuir adsorption isotherm. The apparent K_D and B_max values for [³H]GABA at 4°C were K_D1, 20 nM; K_D2,165 nM; B_max1, 0.48 pmol;B_max2, 6.0 pmol. mg^?1; for [³H]muscimol at 4°C they were: K_D1, 1.75 nM; K_D2, 17.5 nM; B_maxl, 0.84 pmol. mg^?1; B_max2, 4.8 pmol.mg^?1; and for [³H]muscimol at 37°C they were: K_D1, 7.0 nM; K_m, 60 nM; B_max], 0.5 pmol-mg^?1; B_max2, 7.2 pmol-mg¹. Under the experimental conditions used, the similar B_milx values for [³H]GABA and [³H]muscimol binding to the SPM preparations suggests that the high- and low-affinity components for the two radiolabeled ligands are identical. The effects of the GAB A antagonist bicuculline on the binding of [³H]muscimol at 4^CC and 37°C were studied. At 4°C, antagonism of muscimol binding appeared to be competitive at the high-affinity site but noncompetitive at the low-affinity site. At 37°C, antagonism was again competitive at the high-affinity site but was of a mixed competitive/noncompetitive nature at the low-affinity site. Assuming that binding to the high-affinity site is associated with the pharmacological actions of bicuculline, the apparent K_D values obtained suggest a pA₂ value of 5.3 against [³H]muscimol at 4°C and 37°C. This figure is in good agreement with several estimates of the potency of bicuculline based on pharmacological measurements. Results from displacement studies using [³H]GABA and [³H]muscimol suggest that [³H]GABA might be a more satisfactory ligand than [³H]muscimol in GABA radioreceptor assays.     

Sedimentation and release properties of P2 fractions derived from rat cerebral cortex slices incubated with radiolabeled GABA for a short or long time period

On homogenization of rat cerebral cortex slices previously incubated with [³H] GABA or [¹⁴C]GABA for 5 or 30 min, respectively, particles were recovered in P₂ fractions which exhibited similar buoyant density, but different sedimentation velocity on linear sucrose density gradient centrifugation. The K⁺-evoked release of [³H]GABA from particles isolated from slices previously incubated for 5 min with [³H]GABA was increased in the presence of exogenous Ca²⁺. In contrast, the K⁺-evoked release from particles isolated from slices previously incubated for 30 min with [³H]GABA, was not influenced by the presence of exogenous Ca²⁺.These results suggest that, depending on the incubation time of slices, exogenously applied GABA can be detected in differnnt pools. These pools not only seem to differ in their Ca²⁺ dependency of K⁺-evoked release but also in their subcellular localization.     

THE EFFECT OF DELTA-AMINOLAEVULINIC ACID ON THE UPTAKE AND EFFLUX OF [3H]GABA IN RAT BRAIN SYNAPTOSOMES

§-Aminolaevulinic acid (§-ALA) is an omega amino acid which can be considered as an analogue of γ-aminobutyric acid (GABA). We have examined the effect of §-ALA on [³H]GABA uptake and release in the synaptosome fraction of rat cerebral cortex and report: (1) High concentrations of §-ALA (0.75-5 mM) stimulated [³H]GABA release very markedly, the stimulation with 1mM and 5mM-§-ALA exceeding the maximum obtainable with unlabelled GABA; (2) Low concentrations of §-ALA (0.1-0.5 mM) produced little stimulation of [³H]GABA efflux, less than that produced by similar concentrations of unlabelled GABA; (3) 0.1 mM-§-ALA reduced the stimulation of [³H]GABA efflux elicited by 55 mM-K⁺ and the combination of 1 mM-§-ALA and 55mM-K⁺ produced a lower stimulation of efflux than 1 mM-§-ALA alone; (4) §-ALA inhibits [³H]GABA uptake in a linearly competitive fashion and inhibition is maximal at 0.5 mM-§-ALA. These results are discussed in relation to the neuronal high affinity GABA transport mechanism and inhibition of the synaptosomal Na⁺ and K⁺ -dependent ATPase. It is also postulated that §-ALA increases the chloride conductance of the synaptosomal membrane, possibly by acting on presynaptic GABA receptors.     

THE UPTAKE OF 36Cl INTO ASTROCYTES IN TISSUE CULTURE BY A POTASSIUM-DEPENDENT, SATURABLE PROCESS

Abstract— Previous suggestions that the K⁺-dependent uptake of chloride by mammalian cerebral cortex is localized to cortical astrocytes has been investigated in two lines of neural cells in tissue culture. Hamster astrocytes and mouse neuroblastoma cells were each cultured on small glass cover slips in Eagle's (astrocytes) or Dulbecco's (neuroblastoma) supplemented media. At 48 h, cultures were incubated at 37°C for 1–60 min in the presence of ³⁶Cl plus [³H]inulin (as a measure of extracellular space). In media containing approximately 140 mm chloride, the rate of uptake of ³⁶Cl by the astrocytes was a function of the concentration of K⁺ (range 5–54 mm ) in the medium, and the uptake was characterized by saturation kinetics and an apparent K_m of 38·5 mm . The uptake was temperature and apparently energy dependent, significantly inhibited by 5 or 10 mm Br^-, I^-, SCN^- or ClO₄^-, and competitively inhibited by 10 mm acetazolamide (K_i= 27·1 mm ). None of these characteristics were observed with neuroblastoma cultures studied under similar conditions. In chloride-free media, the cellular K/Na ratio of the astrocytes shifted from the usual value of 4·55 to a value of 0·29, the culture medium became more alkaline than normal, and the cells spontaneously sloughed from the cover slips but remained normally viable. Our observations are the first to provide direct support for previous suggestions that there is a mediated, K⁺-dependent coupled cation, chloride and fluid uptake by mammalian cerebrocortical glia and that this uptake is an enzymatically catalysed process. The observations have been discussed in terms of a presumed central role for astrocytes in modulating the external ionic milieu of the neurons they surround and in terms of implications for epilepsy, stroke and cortical edema.     

Uptake and release of possible false transmitter amino acids by rat brain tissue

—The uptake of l [¹⁴C]glutamine by a crude isolated nerve ending fraction of rat brain was found to be linear with time for at least 5 min, profoundly temperature-dependent, apparently half-saturated at a substrate concentration of 0·26 mm , partially inhibited by dinitrophenol and ouabain and elevated [K⁺], weakly Na⁺-dependent, poorly inhibited by drugs which block uptake of biogenic amines and more strongly inhibited by glutamic acid (IC₅₀= 0·5mm ) than by aspartic acid, GABA, glycine or methionine. The [¹⁴C]glutamine taken up appeared to be associated with nerve endings and was released by membrane-disruption; about 20 per cent was associated with free mitochondria. Glutamine, δ-aminolevulinic acid and several other amino acids were poor inhibitors of [³H]GABA-uptake; δ-aminolevulinic acid was a poor inhibitor of [³H]glutamine-uptake, whereas glutamine was a moderately effective competitive inhibitor (K_i= 1 mm ). [¹⁴C]glutamine and [³H]GABA were released from brain slices by electrical stimulation or 50 mm K⁺, while labeled δ-aminolevulinic acid, leucine, urea, amphetamine and tyramine were poorly released. [¹⁴C]glutamine was not released by unlabeled glutamate or several aromatic amines. We conclude that the neuropsychiatric features of porphyria are not likely due to a ‘false transmitter’ role for δ-aminolevulinic acid although such a role for glutamine in hepatic encephalopathy or other neuropsychiatric diseases should be considered.     

Effects of X-irradiation induced loss of cerebellar granule cells on the synaptosomal levels and the high affinity uptake of amino acids.

Abstract— Crude synaptosomal (P₂) preparations were obtained from the cerebella of rats in which the granule cell population had been selectively reduced by X-irradiation treatment and from the cerebella of control animals. In the P₂ fraction from control cerebella, the level of glutamate was greater than any other of the 5 amino acids measured and was 2-fold higher than taurine, which was present at the next highest level. The content of taurine was slightly higher than that found for aspartate and was 3-fold greater than that observed for GABA. Alanine and glycine were present in the lowest amounts. The levels of glutamate and aspartate were significantly (P < 0.05) lower by 25 and 15%, respectively, in the P₂ fraction isolated from the X-irradiated cerebella in comparison to control values. The content of taurine, GABA, glycine, and alanine were not changed by the X-irradiation treatment. The uptake of 1.0 μm -l -[³H]glutamate and l -[³H]aspartate was reduced approx 20% by X-irradiation treatment, whereas the uptake of 1.0 μm -[³H]GABA and [³H]taurine was unchanged. A more detailed kinetic analysis of l -[³H]glutamate uptake revealed there was a 20% decrease in the V_max value with X-irradiation treatment and no change in the apparent K_m value. In a second study, the uptake of l -[³H]glutamate, l -[³H]aspartate and [³H]GABA was measured using P₂ fractions obtained from the cerebella of rats in which the population of granule, stellate and basket cells had been reduced by X-irradiation treatment. The uptake of 1.0μm -l -[³H]glutamate, l -[³H]aspartate and [³H]GABA was significantly (P < 0.05) reduced to 57, 68, and 59%, respectively, of control values. A more detailed kinetic analysis of [³H]GABA uptake revealed no significant change in the apparent K_m and a 35% decrease in the V_max value. The data are discussed in terms of glutamate being the excitatory neurotransmitter released from granule cells and GABA being the inhibitory neurotransmitter released from basket cells.     

RELEASE OF [3H]GABA FROM IN VITRO PREPARATIONS: COMPARISON OF THE EFFECT OF DABA AND β-ALANINE ON THE K+ AND PROTOVERATRINE STIMULATED RELEASE OF [3H]GABA FROM BRAIN SLICES AND SYNAPTOSOMES1

It has been proposed that the major portion of [³H]GABA released from rat cortical slices upon exposure to high K⁺ comes from a neuronal pool. Using carrier mediated exchange diffusion of DABA or β-alanine in the superfusion medium for GABA in the slice as a technique for manipulating neuronal and glial pools of GABA, it was found that DABA but not β-alanine substantially reduced the K⁺ stimulated release of [³H]GABA. The present study using synaptosomes as an in vitro model of the nerve ending was undertaken to ascertain whether this neuronal pool of releasable [³H]GABA was associated with a specific transmitter pool in nerve endings. A continuous superfusion system employing a Ca²⁺ pulse to produce a calcium coupled release (Levy et al, 1973) was used to study the effect of two concentrations (20 μm , 1 mm ) of DABA and β-alanine on the release of [³H]GABA from synaptosomes. In contrast to the results in slices, DABA at both concentrations had no effect on the release of [³H]GABA from synaptosomes in spite of evidence that exchange diffusion was occurring. With protoveratrine as the releasing agent there was no effect of DABA on the release of [³H]GABA from either slices or synaptosomes. The results suggest that the major portion of [³H]GABA released from cortical slices by high K⁺ comes from a non-transmitter pool in the neuron. Use of K⁺ stimulated release of amino acids from cortical slices as a criterion for neurotransmitter function must be viewed with caution.     

Insulin effect on GABA uptake in astroglial primary cultures

Astroglial cultures from newborn mouse cerebral cortex contain [¹²⁵I]insulin binding sites. Binding was specific reversible, time dependent and reached equilibrium after 45 min. Insulin analogues compete for this [¹²⁵I]Insulin binding. Incubation of cerebral cortex astroglial cultures with insulin induced a time-and dose-dependent inhibition of the [³H]GABA high affinity uptake. A decrease in theV _max rather than, an effect on theK _m was observed. This effect was dose-dependent and effective at 10^–10 M. Autoradiographic observations on the cell monolayer showed the presence of two groups of cells: one which strongly takes up [³H]GABA and consist in smaller GFAP positive process-bearing cells and another group of much flatter and larger GFAP positive cells which uptake was lower. The smaller stellate cells were apparently the most sensitive to insulin effect. These results: 1) confirm the presence of insulin binding sites on astroglial primary cultures, 2) show an effect of insulin of [³H]GABA high affinity uptake of these cells; this effect being optimal on a stellate-like population of astrocytes, and 3) indicate, that insulin may interfere in neuromodulation through astroglial signals.     

Function of taurine transporter (Slc6a6/TauT) as a GABA transporting protein and its relevance to GABA transport in rat retinal capillary endothelial cells

The purpose of this study was to identify the uptake mechanism of γ-aminobutyric acid (GABA) via taurine transporter (Slc6a6/TauT) and its relationship with GABA transport at the inner BRB. Rat Slc6a6/TauT-transfected HeLa cells exhibited Na⁺-, Cl⁻-, and concentration-dependent [³H]GABA uptake with a K_m of 1.5 mM. Taurine, β-alanine, and GABA markedly inhibited Slc6a6/TauT-mediated uptake of [³H]GABA. The uptake of [³H]GABA by a conditionally immortalized rat retinal capillary endothelial cell line (TR-iBRB2) was Na⁺-, Cl⁻-, and concentration-dependent with a K_m of 2.0 mM. This process was more potently inhibited by substrates of Slc6a6/TauT, taurine and β-alanine, than those of GABA transporters, GABA and betaine. In the presence of taurine, there was competitive inhibition with a K_i of 74 μM. [³H]Taurine also exhibited competitive inhibition with a K_i of 1.8 mM in the presence of GABA. In conclusion, rat Slc6a6/TauT has the ability to use GABA as a substrate and Slc6a6/TauT-mediated GABA transport appears to be present at the inner BRB.