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1.
Abstract: The accumulation of γ -aminobutyric acid (GABA) after inhibition of GABA-T (4-aminobutyrate: 2-oxoglutamate aminotransferase, EC 2.6.1.19) by various doses of aminooxyacetic acid (AOAA) and gabaculine was studied in four different regions of the mouse brain. The dose-response curve for GABA accumulation after treatment with AOAA was linear up to 10 mg/kg i.p., and then leveled off. The increase in GABA accumulation after gabaculine treatment was linear up to 100 mg/kg i.p. No further increase was observed with doses up to 300 mg/kg i.p. The selectivity of both GABA-T inhibitors was assessed by measuring their effects on the content of free amino acids in mouse brain. Apart from the substantial increase in the GABA concentration, there were significant decreases in the content of glutamic acid, aspartic acid, alanine and glutamine, and an increase in ornithine content after administration of gabaculine. The same changes in amino acid content were observed after treatment with AOAA, but the level of lysine was also increased and the change in alanine level was biphasic. All these changes, however, were very small compared with the large increase in GABA level. A method for estimating the rate of the GABA turnover in vivo by measuring the initial rate of GABA accumulation after administration of AOAA or gabaculine is proposed, and the validity of the two techniques is discussed. The effect of diazepam on GABA levels and on the gabaculine-induced accumulation of GABA was studied. The results obtained with diazepam show that this method can provide valuable insight into the effects of drugs on GABAergic mechanisms in vivo.  相似文献   

2.
The study was centered on the changes in the amino acid content of nerve endings (synaptosomes) induced by drugs that alter the metabolism of glutamate or gamma-aminobutyric acid (GABA), and that possess convulsant or anticonvulsant properties. The onset of seizures induced by various convulsant agents was associated with a decreased content of GABA and an increased content of glutamate in synaptosomes. The concurrent administration of pyridoxine prevented both the biochemical changes and the convulsions. The administration of gabaculine to mice resulted in large increases in the GABA content of synaptosomes that were counteracted by decreases in glutamate, glutamine, and aspartate levels such that the total content of the four amino acids remained unchanged. The administration of aminooxyacetic acid (0.91 mmol/kg) resulted initially in seizure activity, but subsequently in an anticonvulsant action. No simple relationship existed between the excitable state of the brain induced by aminooxyacetic acid and the changes in the synaptosomal levels of any of the amino acid transmitters. A hypothesis was, however, formulated that explained the convulsant-cum-anticonvulsant action of aminooxyacetic acid on the basis of compartmentation of GABA within the nerve endings.  相似文献   

3.
The turnover rate of gamma-aminobutyric acid (GABA) in the rat striatum was estimated by measuring its accumulation after inhibition of GABA-transaminase (GABA-T) with gabaculine. Intrastriatal injections of 100 micrograms gabaculine induced a rapid and complete inhibition of GABA-T. GABA accumulation was linear with time for at least 60 min (estimated turnover rate = 25 nmol/mg protein/h). The accumulation of GABA after gabaculine administration in animals that had been treated with kainic acid (5 nmol intrastriatally, 7 days) was only 40% of the control value, indicating that a major fraction of the net increase in GABA content induced by gabaculine originates in kainic acid-sensitive neurons. Intrastriatal injection of a mixture of kainic acid (5 nmol) and gabaculine caused a net increase in striatal GABA content significantly greater than that observed in controls, suggesting that neuronal death induced by kainic acid is preceded by a period of increased neuronal activity. Glutamic acid, the putative neurotransmitter for the excitatory corticostriatal pathway, also produced a significant increase in striatal GABA accumulation when injected together with gabaculine. This effect was blocked by the administration of the glutamate receptor antagonist glutamic acid diethyl ester. The interactions between GABAergic neurons and other neurotransmitters present in the striatum were also analyzed.  相似文献   

4.
Abstract: The amino acid content of synaptosomes was determined in six regions of rat brain, and in all regions the five predominant amino acids were glutamate, glutamine, aspartate, taurine, and GABA (γ-aminobutyrate). However, the proportions of the individual amino acids varied considerably from one region to another, the GABA content being particularly high and the taurine content low in synaptosomes from the diencephalon and mesencephalon. Administration of isonicotinic acid hydrazide to rats lowered the synaptosomal GABA level by similar amounts in all brain regions, but the administration of gabaculine resulted in a particularly long-acting elevation in GABA levels in the nerve endings of the diencephalon and mesencephalon. The possibility is raised that the high GABA levels in the nerve terminals of the diencephalon may be involved in the gabaculine-induced lowering of the body temperature of the rats. A constancy in the amount of the synaptosomal pool of "aspartate + glutamate + glutamine + GABA" was observed despite large changes in the relative amounts of the four amino acids brought about by gabaculine.  相似文献   

5.
The naturally occurring amino acid gabaculine ((?)-5-amino-1,3 cyclohexadiene carboxylic acid) is a potent irreversible inhibitor of mouse brain γ-aminobutyric acid (GABA)-α-ketoglutaric acid transaminase. When administered I.P. gabaculine, irreversibly inhibits the mouse brain enzyme in a time dependent fashion. Concomitant with this inhibition is a rise in endogenous brain GABA levels. Administration of gabaculine at a concentration of 100 mg/kg mouse leads to the complete inhibition of the enzyme after 4 hrs. Brain levels of GABA continually rise after the administration of the drug. After 20 hrs they are 15–20 times higher than levels in the untreated animals.  相似文献   

6.
GABA synthesis in mouse brain in vivo was estimated by measuring the rate of GABA accumulation one hour after inhibition of GABA degradation using the selective and irreversible antagonism of GABA-transaminase by gabaculine. Using this method we found that acute and repeated ethanol administration lead to a potent depression of gabaculine induced enhancement of GABA levels in mouse brain cerebellum and cerebral cortex. Alcohol, in the absence of gabaculine had no effect on steady state GABA levels. These results demonstrate potent effects of ethanol on the dynamics of GABA metabolism which are compatible with a GABA like effect of ethanol.  相似文献   

7.
The time course of the effects of aminooxyacetic acid, γ-vinyl GABA, γ-acetylenic GABA, gabaculine, ethanolamine-O-sulphate (EOS) and valproic acid (VPA) on brain GABA content and the activities of glutamic acid decarboxylase (GAD) and GABA aminotransferase (GABA-T), the enzymes involved in biosynthesis and degradation of GABA, was re-determined and compared with the action on the electroconvulsive threshold in mice. All drugs caused significant increases in the seizure threshold, and the temporal pattern of this effect correlated rather well with the induced elevation of brain GABA. However, no clear relationship was found between the extent of GABA increase and the relative increase of seizure threshold. Except for VPA, the time course of the increment in brain GABA followed closely the inhibition of GABA-T. The activity of GAD was gradually decreased by γ-acetylenic GABA and a slow decline of GAD activity was also observed after γ-vinyl GABA. EOS and gabaculine suggesting a feedback repression of GAD synthesis by highly elevated GABA concentrations. Concomitant with significant reduction of GAD activity, a decrease in seizure threshold occurred though brain GABA levels remained markedly elevated. On the other hand, following administration of VPA the effect of GABA levels was paralleled by an increase in GAD activity indicating that the GABA-elevating action of this drug can be attributed at least in part to an activation of GABA synthesis. The data suggest that reduction of GAD activity may be an inevitable consequence of increasing brain GABA concentrations over a certain extent and this effect seems to limit the anticonvulsant efficacy of GABA-T inhibitors.  相似文献   

8.
Abstract: The intramuscular administration of L-cycloserine, gabaculine, and aminooxyacetic acid caused significant, time-dependent increases in the γ-aminobutyric acid (GABA) content of both whole brain and synaptosomalenriched preparations obtained from the tissue, a linear relationship being observed between the two parameters. In contrast, the administration of hydrazine resulted in a large increase in whole brain GABA level, with little change in the synaptosomal GABA content. The key factor in these different responses appeared to be the degree of inhibition of glutamic acid decarboxylase by the drugs. Pretreatment of mice with the GABA-elevating agents resulted in a delay in the onset of seizures, which was related directly to the increase in synaptosomal GABA content. Although the seizures were delayed, they occurred while the GABA content of nerve endings (synaptosomes) was above that in preparations from untreated animals. The decrease in GABA content at the onset of seizures, expressed as a percentage of the level at the time of injection of the convulsant agent, was, however, reasonably constant. A hypothesis to explain these results is proposed.  相似文献   

9.
The objective of the present study was to compare the effects of elevation of GABA concentration and those of inactivation ofl-ornithine: 2-oxoacid aminotransferase (OAT) on the in vivo metabolism ofl-ornithine (Orn) in brain. Vigabatrin (4-aminohex-5-enoic acid) and gabaculine (5-amino-1,3-cyclohexadienyl carboxylic acid), two well known inactivators of GABA-T, were used to elevate brain GABA concentrations. The latter inactivates OAT also. Transamination of Orn is, from a quantitative point of view, a significant reaction in mouse brain. GABA is a feed-back regulator of OAT. Within GABAergic neurons Orn concentration may be regulated by endogenous GABA. Extensive inactivation of OAT causes a considerable increase of Orn concentration, both in synaptosomes and in non-synaptosomal compartments. The results are compatible with a role of Orn as precursor of glutamate and/or GABA in certain neurons.  相似文献   

10.
Abstract: The intramuscular administration of a γ-aminobutyrate-α-oxoglutarate aminotransferase (GABA-T) inhibitor, gabaculine, to mice resulted in significant increases in GABA content and decreases in the content of aspartate, glutamate, and glutamine in the nerve endings (synaptosomes). These effects were ameliorated by the concurrent administration of the GABA uptake inhibitor ketamine. A major cause of these effects was the gabaculine-induced inhibition of GABA-T activity and the lessening of this inhibition by ketamine. The latter phenomenon was not due to a direct action of ketamine on the enzyme, nor to an interaction between gabaculine and ketamine. Rather, it appeared that ketamine might be interfering with the transport of gabaculine into the cellular structures. The anticonvulsant action of the GABA-T inhibitor and the GABA uptake inhibitor together was little different from that of the GABA-T inhibitor alone.  相似文献   

11.
P J Schechter  Y Tranier  J Grove 《Life sciences》1979,24(13):1173-1182
Two irreversible enzyme-activated GABA-transaminase inhibitors, gabaculine (5-amino cyclohex-1, 3-dienyl carboxylic acid) and an isomer, isogabaculine (3-amino cyclohex-1, 5-dienyl carboxylic acid), were investigated in mice for their effects on brain GABA metabolism and on seizures induced by a variety of stimuli. Biochemical and pharmacological activities of the two inhibitors were very similar. Both produce dose- and time-related, sustained inhibition of GABA-T activity and, to a lesser extent, of GAD activity and long-lasting increases in brain GABA concentrations. Both protect mice against audiogenic seizures and significantly decrease the frequency of seizures induced by isoniazid, thiosemicarbazide and pentylenetetrazol. They do not affect the frequency of seizures induced by strychnine, bicuculline or picrotoxin and do not alter the threshold to electroconvulsive shock. Although the effects of gabaculine and isogabaculine on brain GABA metabolism resemble those of other GABA-T inhibitors, important differences in pharmacological activities exist.  相似文献   

12.
Synaptosomes isolated from mouse brain were incubated with [14C]glutamate and [3H]-aminobutyric acid ([3H]GABA), and then [14C]GABA (newly synthesized GABA) and [3H]GABA (newly captured GABA) in the synaptosomes were analysed. (1) the [3H]GABA was rapidly degraded in the synaptosomes, (2) when the synaptosomes were treated with gabaculine (a potent inhibitor of GABA aminotransferase), the degradation of [3H]GABA was strongly inhibited, (3) the gabaculine treatment brough about a significant increase in Ca2+-independent release of [3H]GABA with no effect on Ca2+-dependent release, (4) no effects of gabaculine on degradation and release of [14C]GABA were observed. The results indicate that there are at least two pools of GABA in synaptosomes and support the possibilities that GABA taken up into a pool which is under the influence of GABA aminotransferase is released Ca2+-independently and that GABA synthesized in another pool which is not under the influence of GABA aminotransferase is released Ca2+-dependently.  相似文献   

13.
Changes in GABA content of various brain areas during different stages of picrotoxin-induced seizures and following pretreatment with the anti-convulsants phenobarbital andγ-acetylenic GABA were studied. Picrotoxin (6mg/kg) produced clonic/tonic convulsions associated with a 34% reduction in GABA content of the sensory motor cortex. A reduction of 24% was observed 1 min before the onset of seizure and the reduction in GABA content was reversible 20 min after the convulsion. No significant changes were observed in the cerebellum or spinal cord/medulla oblongata. Pretreatment with phenobarbital (100mg/kg) delayed the onset of convulsion and decreased the mortality rate without causing any change in GABA content at the pre-convulsive, convulsive or post-convulsive stages.γ-Acetylenic GABA (100mg/kg) has elevated GABA levels in different areas of the brain by 2–3-fold after 60 min treatment. This increase was reduced by 44% during the onset of picrotoxin-induced seizures. Picrotoxin convulsion can occur in the presence of normal, reduced or even elevated brain GABA content. The only consistent factor is a one-third reduction in GABA content before the onset of seizure.  相似文献   

14.
The turnover and release of endogenous and labeled GABA were followed in rat cortical slices after incubation with [3H]GABA. High performance liquid chromatography was used to measure endogenous GABA and to separate [3H]GABA from its metabolites. During superfusion with 3 mM K+ the slices rapidly lost their [3H]GABA content while maintaining constant GABA levels. Exposure to 50 mM K+ for 25 min caused an initial rapid rise in the release of both endogenous and [3H]GABA followed by a more rapid decline in the release of the latter. The specific activity of released GABA was two to four times higher than that in the slices. Depolarization lead to a net synthesis of GABA. The GABA-T inhibitor, gabaculine, (5 M) in vitro arrested the metabolism of [3H]GABA and rapidly doubled the GABA content but did not significantly increase the high K+ evoked release of endogenous GABA. In vivo pretreatment with 0.5 mM/kg gabaculine quadrupled GABA content and increased both the spontaneous and evoked release of endogenous GABA but while its Ca2+-dependent release increased by 50%, the Ca2+-independent release was enhanced sevenfold. This large Ca2+-independent release of GABA is likely to have different functional significance from the normal Ca2+-dependent release.  相似文献   

15.
Many reports have suggested that gamma-aminobutyric acid (GABA) may play a role in organophosphate-induced convulsions. The balance between GABA and acetylcholine (ACh) in the brain also has been suggested by some investigators to be related to brain excitability. We examined these questions by studying the levels of GABA and ACh and the ratios of GABA to ACh in rat striata and cerebella (two major motor control areas in the CNS) after the administration of soman, an organophosphate acetylcholinesterase inhibitor also known as nerve gas. Male Sprague-Dawley rats weighing 250-300 g were injected subcutaneously with three different doses of soman: a subconvulsive dose of 40 micrograms/kg (approximately 30% of the ED50 for convulsions in rats), a convulsive dose of 120 micrograms/kg (approximately one ED50 for convulsions), and a higher convulsive dose of 150 micrograms/kg (approximately 120% of the ED50 for convulsions). The incidence and severity of convulsions were monitored in individual rats until they were sacrificed by focused microwave irradiation of the head at the following time points after soman administration: 4 min, a time prior to the onset of convulsions; 10 min, the time of onset of convulsions; 1 h, the time of peak convulsive activity; and 6 h, a time at which rats were recovering from convulsions. Results showed that in rat striata and cerebella, neither changes in levels of GABA and ACh nor changes in ratios of GABA to ACh were related to soman-induced convulsions, i.e., none of the changes in either levels or ratios of these two neurotransmitters were related to the initiation of, maintenance of, or recovery from soman-induced convulsions.  相似文献   

16.
Abstract: Di-n-propylacetate (DPA), aminooxyacetic acid (AOAA), and gabaculine were administered alone or in combination to Swiss mice. Six hours after administration of the drugs the anticonvulsant action (against isonicotinic acid hydrazide-induced seizures) of AOAA and DPA combined was less than that of AOAA alone. The cause of this phenomenon appeared to be an interaction between DPA and AOAA with respect to inhibition of GABA-T activity, resulting in a long-term diminished inhibition by AOAA, which in turn led to a lessening of the AOAA-induced elevation in the GABA content of nerve endings (synaptosomes). An excellent correlation was observed between the delay in onset of seizures and the elevation of synaptosomal GABA content.  相似文献   

17.
Synaptosomes and synaptoneurosomes were prepared from rat cerebral cortex. Comparison of the amino acid levels in the two types of organelles and of the effects of gabaculine thereon indicated that the neurosome portion of synaptoneurosomes constituted the major influencing component of the organelles. Administration to rats of inhibitors of gamma-aminobutyric acid (GABA) degradation, such as gabaculine and L-cycloserine, resulted in elevated GABA levels in synaptoneurosomes and a decrease in muscimol-stimulated Cl- up-take by the organelles. Addition of gabaculine directly to the incubation medium for the uptake assay had no effect on the Cl- transport. In contrast, administration to rats of isonicotinic acid hydrazide, an inhibitor of GABA synthesis, decreased the GABA level in synaptoneurosomes and increased the muscimol-stimulated Cl- uptake by the organelles. Although the evidence is not unequivocal, it does support the concept of GABA released from nerve endings being taken up by the postsynaptic cell, from where it exerts a regulatory influence on the functioning of the GABA receptor/ion channel complex.  相似文献   

18.
Because previous work showed that in the newborn brain, but not in the adult brain, glutamate decarboxylase (GAD) is notably susceptible to heat, we have studied the possible involvement of GAD inhibition in febrile convulsions and the related changes in gamma-aminobutyric acid (GABA) content. Rats of different ages were subjected to hyperthermia, and GAD activity was determined in brain homogenates by measuring the release of 14CO2 from labeled glutamate and by measuring the formation of GABA. The latter method gave considerably lower values than the former in the youngest rats, and was considered more reliable. With this method, we found a 37-48% inhibition of GAD activity in rat pups 2-5 days old, which showed febrile seizures at progressively higher body temperatures, whereas in 10- and 15-day-old animals, which did not show convulsions, GAD activity was not affected by hyperthermia. Whole-brain GABA levels, however, did not change at any age. In contrast to GAD, choline acetyltransferase and lactic dehydrogenase activities were not altered by hyperthermia at any of the ages studied. These results suggest that a decreased efficiency of the inhibitory neurotransmission mediated by GABA, consequent to the inhibition of GAD activity, may be a factor related to febrile convulsions.  相似文献   

19.
The potassium-stimulated release of gamma-aminobutyric acid (GABA) from synaptosomes was determined in preparations from control rats and from rats treated with a convulsant agent [isonicotinic acid hydrazide (INH)] and an anticonvulsant agent (gabaculine). INH treatment brought about a significant decrease in Ca2+-dependent release of GABA with no effect on Ca2+-independent release, whereas gabaculine caused an increase in Ca2+-independent release with no effect on Ca2+-dependent release of GABA. Thus, the anticonvulsant action of gabaculine was not a simple reversal of the effects of INH on GABA release. The results indicate that there are at least two pools of GABA in nerve endings and support the hypothesis that exogenous GABA is taken up first into a pool that supplies GABA for Ca2+-independent release and then is transferred to a second pool (Ca2+-dependent releasable), where it mixes with newly synthesized GABA.  相似文献   

20.
The raphe nuclei [which contain serotonin (5-HT) cell bodies] are also known to contain axons that store substance P, met-enkephalin, and gamma-aminobutyric acid (GABA). We have previously shown that GABA has a tonic inhibitory action on 5-HT turnover. To examine other possible interactions of these neuronal systems, we assessed the effect on 5-HT turnover of injecting substance P and 2-D-ala-met-enkephalin into the median raphe nucleus, and the effects of substance P on GABA turnover. Serotonin turnover was increased by 30% in the hippocampus after the injection of substance P (4 micrograms) into the median raphe, indicating an excitatory effect of substance P on the raphe-hippocampal system. Local injection of the metabolically stable metenkephalin analog 2-D-ala-met-enkephalin amide (10 micrograms) increased the hippocampal steady state content of 5-hydroxyindoleacetic acid (5-HIAA) by 60%. The data suggest an excitatory effect of met-enkephalin within the raphe nucleus. We attempted to estimate GABA turnover from the rate of disappearance of GABA after inhibition of glutamic acid decarboxylase by isoniazid and by the rate of accumulation of GABA after inhibition of GABA transaminase by gabaculine. Isoniazid, which is a competitive inhibitor, had too short and incomplete an action to be of use when injected intranuclearly. Gabaculine, which is an irreversible inhibitor, induced a rapid-onset increase in GABA content. This accumulation was linear up to 90 min. The injection fo gabaculine (80 ng) into the raphe increased GABA content by five times the control values, but hippocampal 5-HT and 5-HIAA contents were not significantly changed. Substance P injection increased the GABA turnover by 30%. Gabaculine seems a promising tool for detecting changes in GABA turnover.  相似文献   

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