Interactions ofγ-aminobutyric acid (GABA), pentobarbital,and homopantothenic acid (HOPA) on internally perfused frog sensory neurons

Augmentatory actions among Cl- currents (ICl) induced by gamma-aminobutyric acid (GABA), pentobarbital (PB), and homopantothenic acid (HOPA) were investigated in isolated frog sensory neurons after suppression of Na+, K+, and Ca2+ currents using a suction pipette technique which combines internal perfusion with voltage clamp. GABA-sensitive neurons responded to both PB and HOPA, and the responses behaved as a simple Cl- electrode and reversed at the Cl- equilibrium potential (ECl). The dose-response curve for GABA-induced Cl- conductance was sigmoidal with the GABA concentration producing a half-maximum response (4.2 X 10(-5) M). Both GABA and HOPA dose-response curves shifted to the left in the presence of PB, though the facilitatory action of PB on GABA- and HOPA-induced ICl was more effective in the former. There was a significant facilitatory interaction between GABA- and HOPA-induced ICl. It is concluded that HOPA affects the GABA-GABA or PB-PB receptor interactions.     

Glutamic acid decarboxylase of embryonic avian retina cells in culture: Regulation byγ-aminobutyric acid (GABA)

1. Retina-cell aggregate cultures expressed glutamate decarboxylase activity (L-glutamate 1-carboxylase; EC 4.1.1.15) as a function of culture differentiation. 2. Glutamic acid decarboxylase (GAD) activity was low in the initial phases of culture and increased eight-fold until culture day 7, remaining high up to day 13 (last stage studied). 3. The addition of GABA to the culture medium 24 h after cell seeding almost totally prevented the expression of GAD activity. 4. In association with decreased enzyme activity, aggregates exposed to GABA did not display immunoreactivity for GAD, suggesting that GAD molecules were either lost from GABAergic neurons or significantly altered with GABA treatment. 5. Control, untreated aggregates showed intense GAD immunoreactivity in neurons. Positive cell bodies were characterized by a thin rim of labeled cytoplasm with thickest labeling at the emergence of the main neurite. 6. Heavily labeled patches were also observed throughout the aggregates, possibly reflecting regions enriched in neurites. 7. The GABA-mediated reduction of GAD immunoreactivity was a reversible phenomenon and could be prevented by picrotoxin.     

Damage to the high-affinity γ-aminobutyric acid (GABA) uptake system in mouse brain by horseradish peroxidase (HRP)

Presynaptic nerve terminals when depolarized are sensitive to morphological and functional alteration by horseradish peroxidase. Mouse brain slices, 0.1 mm, depolarized by a K⁺-HEPES buffer and exposed to horseradish peroxidase exhibited alterations in both synaptic vesicle membrane structure and in high-affinity [¹⁴C]γ-aminobutyric acid uptake. The post stimulatory retrieval of synaptic vesicles from the nerve terminal plasma membrane in the presence of horseradish peroxidase resulted in a decrease in the synaptic vesicle population with a concurrent increase in non-synaptic vesicle membrane structures. High-affinity [¹⁴C]γ-aminobutyric acid uptake into 0.1-mm slices of mouse cerebral cortex and ponsmedulla-spinal cord was inhibited by 31% and 24%, respectively, after incubation for 60 min in K⁺-HEPES buffer containing horseradish peroxidase. Superoxide dismutase protected both the synaptic vesicle membrane and the high-affinity uptake system from the deleterious effects of horseradish peroxidase, pointing to the possible involvement of superoxide anion radicals in the horseradish peroxidase-related effects. These horseradish peroxidase induced alterations appear to be directed towards the exposed synaptic vesicle membrane, since non-stimulated brain slices exposed to horseradish peroxidase do not exhibit a reduction in either high- or low-affinity [¹⁴C]γ-aminobutyric acid uptake. Low-affinity uptake of [¹⁴C]γ-aminobutyric acid and [¹⁴C]α-aminoisobutyric acid into cortical slices was not affected after incubation in K⁺-HEPES with horseradish peroxidase. Low-affinity uptake, however, is reduced by the high-K⁺/Na⁺-free stimulatory incubation prior to uptake. It appears, thus, that high- and low-affinity uptake are distinct and different systems, with the high-affinity transport system structurally associated with synaptic vesicle membrane.     

Autoradiographic studies of the γ-aminobutyric acid (GABA) system in the rat pancreas

Summary The -cells of the pancreatic islets have been shown to contain -aminobutyric acid (GABA) together with insulin. Autoradiographic analysis indicated that high affinity GABA binding sites (GABA receptors) are not present in the pancreas. High affinity GABA uptake sites are present, not in -cells, but in a few cells on the periphery of the islets. These observations cast doubt on the suggestion that GABA has a paracrine role in the pancreas.     

Autoradiographic localization of 3H-γ-aminobutyric acid uptake in the lamina ganglionaris of Musca and Drosophila

Summary The uptake of ³H-GABA in the visual system of half-head preparations of Musca and Drosophila was studied by means of light and electron microscope autoradiography. Of all three ganglia, only the first synaptic region, the lamina ganglionaris, showed accumulation of radioactive grains, and there a preferential glial uptake could be found. Under normal light conditions at incubation (constant light flux of 100 Lux) the maximum of radio-activity was found in the marginal glia cells. Increasing the time of incubation produced also an increase in the number of grains per surface unit in the marginal glia cells. After changing the light intensity during incubation, quantitative modifications of the distribution of radio-activity were observed: incubating with stroboscopic illumination, the number of grains diminished in the marginal glia cells and remained constant in the epithelial cells; incubated in darkness, the epithelial cells became more intensely labelled whilst the number of grains decreased in the marginal cells.The possibility is discussed that the receptor axons 1–6 are the neurological elements of the lamina which use GABA as a transmitter. This hypothesis is lent some support from results of similar experiments with neurological mutants of Drosophila. In opm 18 there was a delayed uptake of ³H-GABA whereas in opm 3 and ebony the results were comparable to those found in Musca incubated in darkness. Behavioral studies on these mutants have demonstrated a defect, most probably related to the receptor system 1–6.     

Excitatory action of γ-aminobutyric acid (GABA) on crustacean neurosecretory cells

Summary 1. Intracellular and voltage-clamp recordings were obtained from a selected population of neuroscretory (ns) cells in the X organ of the crayfish isolated eyestalk. Pulses of -aminobutyric acid (GABA) elicited depolarizing responses and bursts of action potentials in a dose-dependent manner. These effects were blocked by picrotoxin (50 µM) but not by bicuculline. Picrotoxin also suppressed spontaneous synaptic activity.2. The responses to GABA were abolished by severing the neurite of X organ cells, at about 150 µm from the cell body. Responses were larger when the application was made at the neuropil level.3. Topical application of Cd²⁺ (2 mM), while suppressing synaptic activity, was incapable of affecting the responses to GABA.4. Under whole-cell voltage-clamp, GABA elicited an inward current with a reversal potential dependent on the chloride equilibrium potential. The GABA effect was accompanied by an input resistance reduction up to 33% at a –50 mV holding potential. No effect of GABA was detected on potassium, calcium, and sodium currents present in X organ cells.5. The effect of GABA on steady-state currents was dependent on the intracellular calcium concentration. At 10^–6 M [Ca²⁺]_i, GABA (50 µM) increased the membrane conductance more than threefold and shifted the zero-current potential from–25 to–10 mV. At 10^–9 M [Ca²⁺]_i, GABA induced only a 1.3-fold increase in membrane conductance, without shifting the zero-current potential.6. These results support the notion that in the population of X organ cells sampled in this study, GABA acts as an excitatory neurotransmitter, opening chloride channels.     

The responses of acetylcholine, γ-aminobutyric acid (GABA), dopamine,octopamine and other putative transmitters on Limulus polyphemus central neurons

1. Intracellular recordings have been made from neurons in the nerve cord of the horse-shoe crab, Limulus polyphemus. The resting potentials range between −30 and −60 mV, while the action potentials range from 2–4 mV up to 60 mV.2. All the cells tested were inhibited by GABA and excited by cholinergic agonists. The action of GABA was reversibly antagonised by picrotoxin while the acetylcholine response was reversibly antagonised by pentolinium and hexamethonium.3. Cells also responded to dopamine, noradrenaline, octopamine, glutamic acid, histamine and 5-hydrosytryptamine (5-HT); certain cells being inhibited by one or more of these compounds while other cells were excited. The actions of dopamine and noradrenaline were always the same, with noradrenaline being about 100 times less potent than dopamine. The action of dopamine was antagonised by metoclopramide and the action of histamine was antagonised by mepyramine.4. The pharmacology of these neurons is compared to insect and crustacean central neurons.     

High-affinity uptake of γ-aminobutyric acid in cultured glial and neuronal cells

Both glial and neuronal cells maintained in primary culture were found to accumulate [³H]GABA by an efficient high-affinity uptake system (apparentK _m=9 M,V _max=0.018 and 0.584 nmol/mg/min, respectively) which required sodium ions and was inhibited by 1 mM ouabain. Strychnine and parachloromercuriphenylsulfonate (pCS) (both at 1 mM) also strongly inhibited uptake of [³H]GABA, but metabolic inhibitors (2,4-dinitrophenol, potassium cyanide, and malonate) were without effect. Only three structural analogs of GABA (nipecotate, -alanine, and 2,4-diaminobutyrate) inhibited uptake of [³H]GABA, while several other compounds with structural similarities to GABA (e.g. glycine,l-proline, and taurine) did not interact with the system. The kinetic studies indicated presence of a second uptake (K _m=92 M,V _max=0.124 nmol/mg/min) in the primary cultures containing predominantly glioblasts. On the other hand, only one of the neuronal cell lines transformed by simian virus SV40 appeared to accumulate [³H]GABA against a concentration gradient. ApparentK _m of this uptake was relatively high (819 M), and it was only weakly inhibited by 1 mM ouabain and 1 mM pCS. The structural specificity also differed from that of the uptake observed in the primary cultures. Significantly, none of the nontransformed continuous cell lines of either tumoral (glioma, C₆; neuroblastoma, Ml; MINN) or normal (NN; I₆) origin actively accumulated [³H]GABA. It is suggested that for the neurochemical studies related to GABA and requiring homogeneous cell populations, the primary cultures offer a better experimental model than the continuous cell lines.     

Ab-initio SCF investigation ofγ-aminobutyric acid

Summary The potential energy surface of the neutral form of-aminobutyric acid was investigated by means of ab-initio 4-31 G SCF calculations. Geometries, energies, and selected wave numbers of all 62 symmetry unique local minima are reported. Intramolecular interactions and all reactions, which involve the intramolecular hydrogen bond, are discussed and compared with those present in the homologues-alanine and glycine.Abbreviations GABA -aminobutyric acid - PES potential energy surface - RHF Roothaan-Hartree-Fock - SCF self consistent field     

Involvement of sialic acid in the regulation of γ--aminobutyric acid uptake activity of γ-aminobutyric acid transporter 1

The γ-aminobutyric acid (GABA) transporters (GATs) have long been recognized for their key role in the uptake of neurotransmitters. The GAT1 belongs to the family of Na(+)- and Cl(-)-coupled transport proteins, which possess 12 putative transmembrane (TM) domains and three N-glycosylation sites on the extracellular loop between TM domains 3 and 4. Previously, we demonstrated that terminal trimming of N-glycans is important for the GABA uptake activity of GAT1. In this work, we examined the effect of deficiency, removal or oxidation of surface sialic acid residues on GABA uptake activity to investigate their role in the GABA uptake of GAT1. We found that the reduced concentration of sialic acid on N-glycans was paralleled by a decreased GABA uptake activity of GAT1 in Chinese hamster ovary (CHO) Lec3 cells (mutant defective in sialic acid biosynthesis) in comparison to CHO cells. Likewise, either enzymatic removal or chemical oxidation of terminal sialic acids using sialidase or sodium periodate, respectively, resulted in a strong reduction in GAT1 activity. Kinetic analysis revealed that deficiency, removal or oxidation of terminal sialic acids did not affect the K(m) GABA values. However, deficiency and removal of terminal sialic acids of GAT1 reduced the V(max) GABA values with a reduced apparent affinity for extracellular Na(+). Oxidation of cell surface sialic acids also strongly reduced V(max) without affecting both affinities of GAT1 for GABA and Na(+), respectively. These results demonstrated for the first time that the terminal sialic acid of N-linked oligosaccharides of GAT1 plays a crucial role in the GABA transport process.     

Identification and characterization of γ-aminobutyric acid uptake system GabPCg (NCgl0464) in Corynebacterium glutamicum

Corynebacterium glutamicum is widely used for industrial production of various amino acids and vitamins, and there is growing interest in engineering this bacterium for more commercial bioproducts such as γ-aminobutyric acid (GABA). In this study, a C. glutamicum GABA-specific transporter (GabP(Cg)) encoded by ncgl0464 was identified and characterized. GabP(Cg) plays a major role in GABA uptake and is essential to C. glutamicum growing on GABA. GABA uptake by GabP(Cg) was weakly competed by l-Asn and l-Gln and stimulated by sodium ion (Na(+)). The K(m) and V(max) values were determined to be 41.1 ± 4.5 μM and 36.8 ± 2.6 nmol min(-1) (mg dry weight [DW])(-1), respectively, at pH 6.5 and 34.2 ± 1.1 μM and 67.3 ± 1.0 nmol min(-1) (mg DW)(-1), respectively, at pH 7.5. GabP(Cg) has 29% amino acid sequence identity to a previously and functionally identified aromatic amino acid transporter (TyrP) of Escherichia coli but low identities to the currently known GABA transporters (17% and 15% to E. coli GabP and Bacillus subtilis GabP, respectively). The mutant RES167 Δncgl0464/pGXKZ9 with the GabP(Cg) deletion showed 12.5% higher productivity of GABA than RES167/pGXKZ9. It is concluded that GabP(Cg) represents a new type of GABA transporter and is potentially important for engineering GABA-producing C. glutamicum strains.     

Involvement of γ-aminobutyric acid transporter 2 in the hepatic uptake of taurine in rats

Taurine is essential for the hepatic synthesis of bile salts and, although taurine is synthesized mainly in pericentral hepatocytes, taurine and taurine-conjugated bile acids are abundant in periportal hepatocytes. One possible explanation for this discrepancy is that the active supply of taurine to hepatocytes from the blood stream is a key regulatory factor. The purpose of the present study is to investigate and identify the transporter responsible for taurine uptake by periportal hepatocytes. An in vivo bolus injection of [(3)H]taurine into the rat portal vein demonstrated that 25% of the injected [(3)H]taurine was taken up by the liver on a single pass. The in vivo uptake was significantly inhibited by GABA, taurine, β-alanine, and nipecotic acid, a GABA transporter (GAT) inhibitor, each at a concentration of 10 mM. The characteristics of Na(+)- and Cl(-)-dependent [(3)H]taurine uptake by freshly isolated rat hepatocytes were consistent with those of GAT2 (solute carrier SLC6A13). Indeed, the K(m) value of the saturable uptake (594 μM) was close to that of mouse SLC6A13-mediated taurine transport. Although GABA, taurine, and β-alanine inhibited the [(3)H]taurine uptake by > 50%, each at a concentration of 10 mM, GABA caused a marked inhibition with an IC(50) value of 95 μM. The [(3)H]taurine uptake exhibited a significant reduction when the GAT2 gene was silenced. Immunohistochemical analysis showed that GAT2 was localized on the sinusoidal membrane of the hepatocytes predominantly in the periportal region. These results suggest that GAT2 is responsible for taurine transport from the circulating blood to hepatocytes predominantly in the periportal region.     

Decreasedγ-aminobutyric acid (GABA) modulatory effect on rat vas deferens neurotransmission after chronic administration of imipramine

1. Chronic (10 mg/kg, i.p., once daily for 14 days) but not acute (10 mg/kg, i.p., 24 hr) administration of imipramine resulted in a decrease in both the responsiveness and the sensitivity of the contractions of the isolated rat vas deferens elicited by field stimulation to GABA and (-)-baclofen. 2. In contrast, clonidine and isoproterenol effects were not altered by either treatment. 3. This study shows for the first time that GABA action in the peripheral nervous system is altered by chronic treatment with antidepressants, possibly by inducing changes in a postreceptor element.     

Decreased emodepside sensitivity in unc-49 γ-aminobutyric acid (GABA)-receptor-deficient Caenorhabditis elegans

Emodepside, a semi-synthetic derivative of PF1022A, belongs to a new class of anthelmintic drugs, the cyclooctadepsipeptides, and shows good efficacy against macrocyclic lactone-, levamisole- or benzimidazole-resistant nematode populations. Although putative receptors for emodepside have already been discovered, its mode of action is still not fully understood. The involvement of the γ-aminobutyric acid (GABA)-receptor on the PF1022A mode of action has previously been postulated. Therefore, a possible role of the GABA-receptor, unc-49, in the mode of action of emodepside was investigated using two different Caenorhabditis elegans in vitro assays, a motility assay and a development assay. It was found that there is a clearly reduced sensitivity against emodepside of strains carrying a GABA-receptor, unc-49, loss of function mutation compared with N2 wild type C. elegans. To transfer these results from the model system to parasitic nematodes, the Toxocara canis unc-49B cDNA sequence was identified and used in a rescue experiment. The emodepside-susceptible phenotype could be fully rescued by injection of the T. canis unc-49B cDNA sequence. We believe that this is the first functional rescue of a C. elegans mutant strain with a gene from a clade III parasitic nematode. These findings, together with the earlier data on GABA-receptor binding of PF1022A, suggest that the GABA(A)-receptor UNC-49 is associated with the emodepside mode of action. However, the only partially resistant phenotype of the loss of function mutants indicates that other pathways play a more significant role.     

Inhibition of transporter mediated γ-aminobutyric acid (GABA) release by SKF 89976-A,a GABA uptake inhibitor,studied in a primary neuronal culture from chicken

The effect of SKF 89976-A, a lipophilic non-substrate inhibitor of the -aminobutyric acid (GABA) transporter, on the release of radioactive GABA andd-aspartate has been studied. Neuronal cultures from 8 day old chick embryos, grown for six days, served as a model. The cultures were incubated with [³H]d-aspartate and [¹⁴C] GABA with the subsequent addition of high or low concentrations of SKF 89976-A. Finally the cultures were exposed to differently composed media for either 30 or 300 seconds. The release was quantified, using liquid scintillation counting. The efflux of [³H]d-aspartate and [¹⁴C] GABA was increased by [K⁺] and time, and a minimum value was obtained at [Ca²⁺] 1.05 mM. The release of both [³H]d-aspartate and [¹⁴C] GABA was inhibited by SKF 89976-A. The obtained results indicate that transporter mediated processes are the major mechanisms of transmitter release in the investigated model.     

Cloning of a putative γ-aminobutyric acid (GABA) receptor subunit ϱ3 cDNA

Cloned cDNA encoding a putative member of GABA receptor ϱ-subunit class was isolated from rat-retina-mRNA-derived libraries. The cDNA encodes a signal peptide of 21 amino acids followed by the mature ϱ3 subunit sequence of 443 amino acids. The proposed amino acid sequence exhibits 63 and 61% homology to the previously-reported human ϱ1 and rat ϱ2 sequences, respectively. Northern blot analysis demonstrated the expression of mRNA for ϱ3 subunit in retina.     

Simultaneous determination of leu-enkephalin localization and [3H]γ-aminobutyric acid uptake in rat striatal cell cultures

The purpose of this study was to investigate the coexistence of gamma-aminobutyric acid (GABA) and leu-enkephalin in single neurons from the corpus striatum. Monolayer cell cultures, started from newborn rat corpus striatum, were grown in serum-free medium and examined using GABA autoradiography and leu-enkephalin immunocytochemistry in a double-label protocol. Examples of cells were found which were positive for one or the other neurotransmitter or for neither transmitter, but not for both. Furthermore, cells which appear similar by morphological criteria alone differed in transmitter specificity. We conclude that the two transmitters tested are not localized within single cells and that morphology alone is inadequate to identify functional cell classes in this area.