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1.
Alpha-latrotoxin evokes massive [3H]GABA release from rat brain synaptosomes by stimulating exocytosis and outflow from non-vesicular pool. In the present study, GABA transporter-mediated [3H]GABA release was shown to be involved in alpha-latrotoxin-triggered release of [3H]GABA from non-vesicular pool. The following agents have been exploited as tools: (1) a protonophore carbonyl cyanide-p-trifluoromethoxyphenyl-hydrazon (FCCP) and bafilomycin A1 for evoking depletion of synaptic vesicle [3H]GABA and enlargement of non-vesicular pool; (2) a non-substrate high-affinity GABA transport blocker NO-711 for determining participation of GABA carrier in the toxin-stimulated GABA release; (3) a competitive inhibitor of GABA reuptake nipecotic acid for heteroexchange [3H]GABA release. As shown by the experiments with nipecotic acid, FCCP and bafilomycin A1 considerably increase the content of non-vesicular [3H]GABA. The treatment of the synaptosomes with these agents modified the response to alpha-latrotoxin, particularly to its subnanomolar concentrations: the lack or substantial lowering of the toxin-evoked release during the first 2 min after the toxin addition and substantial enhancement of release up to the 5th minute were observed. Only the step of enhanced release was sensitive to GABA transporter blocker NO-711. Distinct sensitivity to NO-711 was shown to be characteristic for different steps of alpha-latrotoxin-stimulated [3H]GABA release from the control, untreated synaptosomes: lack of any effect of NO-711 during the first 2 min and powerful inhibition in 10 min after the toxin application. Taken together these data appear to indicate that the toxin non-simultaneously from vesicular and non-vesicular origins releases the neurotransmitter, the first rapid step reflects exocytosis stimulation, and the second tardy step is at least in part due to the release mediated by GABA transporters. The incomplete inhibition with NO-711 of the tardy step of the release evoked by nanomolar toxin concentrations suggests the participation not only of the GABA transporters.  相似文献   
2.
We studied the effects of early postnatal hypoxia on the efficiency of active GABA transport through the plasma membrane of synaptic terminals (synaptosomes) isolated from the cerebral cortex, hippocampus, and thalamus of rats and on non-stimulated and Ca2+-stimulated GABA release. The state of hypoxia was induced by exposure of 10- to 12-day-old rats to a respiratory medium with low O2 content (4% О2 and 96% N2) for 12 min (up to the initiation of clonico-tonic seizures). Animals were taken in the experiment 8 to 9 weeks after an episode of hypoxic stress. The intensity of transmembrane transport of GABA was estimated according to accumulation of [3Н]GABA in a coarse synaptosomal fraction. The process was characterized by calculation of the Michaelis constant K m and also of the initial (within the 1st min) and maximum rates of accumulation of [3Н]GABA. The means of the initial rate of [3Н]GABA accumulation in preparations from the thalamus, cortex, and hippocampus were 205.5 ± 8.8, 266.2 ± 29.6, and 302.3 ± 31.2 pmol/min⋅mg protein, respectively. Hypoxic stress influenced the rates of accumulation of [3Н]GABA in synaptic terminals from the cortex and hippocampus but not in those from the thalamus. According to the characteristics of the response to hypoxic stress, all experimental animals could be classified into two groups. In some rats, accumulation of [3Н]GABA in both cortical and hippocampal synaptosomes decreased insignificantly (by about 15%), while in other animals this parameter increased significantly (by nearly 50%) for the cortex and decreased by 21.5%, on average, for the hippocampus. The affinity of the transporter with respect to [3Н]GABA in the cortex and hippocampus was nearly the same and showed no changes under the influence of hypoxia. The non-stimulated release of [3Н]GABA after the influence of hypoxia increased in all structures, while the depolarization-induced Ca2+-dependent release of [3Н]GABA was intensified only in synaptosomes from the cerebral cortex. The mechanisms of development of modifications of GABA-ergic processes under the influence of hypoxic stress in the course of the perinatal period are discussed. Neirofiziologiya/Neurophysiology, Vol. 40, No. 4, pp. 293–302, July–August, 2008.  相似文献   
3.
The effect of a protein kinase inhibitor, staurosporine, on Ca2+-dependent and Ca2+-independent release of [14C]GABA in isolated rat brain synaptosomes was studied. Calcium-dependent [14C]GABA release was stimulated by depolarization with a K+ channel blocker, 4-aminopyridine (4-AP), or high K+ concentration. It has been shown that the effect of 4-AP is Ca2+-dependent, while high K+ is able to evoke [14C]GABA release in both Ca2+-dependent and Ca2+-independent manners. In addition, Ca2+-independent [14C]GABA release was studied using α-latrotoxin (LTX) as a tool. Pretreatment of synaptosomes with staurosporine resulted in pronounced inhibition of 4-AP-stimulated Ca2+-dependent [14C]GABA release. The inhibitory effect of staurosporine on [14C]GABA release was not due to modulation of 4-AP-promoted45Ca2+ influx into synaptosomes. If the process of [14C]GABA release occurred in the Ca2+-independent manner irrespectively of what, LTX or high K+, stimulated this process, it was not inhibited by staurosporine. Considering the above findings, it is reasonable to assume that the absence of Ca2+ in the extracellular medium created conditions for activation of the process of neurotransmitter release without Ca2+-dependent dephosphorylation of neuronal phosphoproteins; as a consequence, regulation of exocytotic process was modulated in such a manner that inhibition of protein kinases did not disturb exocytosis.  相似文献   
4.
The effects of extracellular monocarboxylates pyruvate and lactate on membrane potentials, acidification and neurotransmitter filling of synaptic vesicles were investigated in experiments with rat brain synaptosomes using [(3)H]GABA and fluorescent dyes, potential-sensitive rhodamine 6G and pH-sensitive acridine orange. In experiments investigating accumulation of acridine orange in synaptic vesicles within the synaptosomes, monocarboxylates, similarly to glucose, ensured generation of the vesicle proton gradient by available and recycled vesicles, and pyruvate demonstrated the highest efficacy. An increase in the level of proton gradient correlated with enhanced accumulation of [(3)H]GABA in synaptic vesicles and resulted in enlarged exocytosis and attenuated the transporter-mediated [(3)H]GABA release. Pyruvate added to glucose-contained medium caused more active binding of rhodamine 6G by synaptosomes that reflected mitochondrial membrane hyperpolarization, and this intensification of nerve terminal energy metabolism resulted in an increase in total ATP content by approximately 25%. Pyruvate also prolonged the state of metabolic competence of nerve terminal preparations, keeping the mitochondrial potential and synaptic vesicle proton gradient at steady levels over a long period of time. Thus, besides glucose, the extracellular monocarboxylates pyruvate and lactate can provide sufficient support of energy-dependent processes in isolated nerve terminals, allowing effective functioning of neurotransmitter release and reuptake systems.  相似文献   
5.
Neuronal activity is tightly coupled with brain energy metabolism. Numerous studies have proved that glucose is not a sole energy substrate for neurons; metabolic monocarboxylate intermediates derived from glucose (pyruvate and lactate) released by astrocytes are shown to be taken up and oxidized by neurons, and, moreover, could serve as neuroprotective agents. Herein, we presented the data that extracellular pyruvate (4 mM) in the presence of glucose caused the increase in synaptosomal ATP content from 3.48+/-0.30 to 4.38+/-0.23 nmol/mg of protein. This correlates with the enhanced accumulation of fluorescent dye acridine orange in the available and the recycling synaptic vesicles within the synaptosomes reflecting the improved generation of proton gradient through the synaptic vesicle membrane. We have also demonstrated the effect of extracellular pyruvate on distribution of [3H]GABA between synaptic vesicles and cytoplasm in loaded synaptosomes. To estimate [3H]GABA accumulation into the synaptic vesicles, Ca 2+-dependent 4-aminopyridine-triggered exocytotic neurotransmitter release was studied. Evaluation of cytosolic 1H]GABA pool was performed by measuring the Ca2+-independent transporter-mediated neurotransmitter release evoked by nipecotic acid or high K+. The presence of pyruvate resulted in doubled exocytotic release of [3H]GABA, and significantly attenuated Ca2+-independent release of cytosolic [3H]GABA. Together, these observations provide insight into the important role of glucose metabolic intermediate, pyruvate, in sustaining activity of vesicular inhibitory amino acid transporter and so normal inhibitory transmission. We propose to use pyruvate for keeping up synaptosomal preparations in state of metabolic stability.  相似文献   
6.
Phosphatidylinositol 4,5-biphosphate has been implicated in a variety of membrane-trafficking processes, including exocytosis of neurotransmitters. However, there are contradictory findings concerned ability of phenylarsine oxide (PAO), an inhibitor of phosphatidylinositol 4-kinase, to affect exocytotic release of different types of neurotransmitters. We bent our efforts to a detailed analysis of action of PAO on Ca(2+)-dependent and Ca(2+)-independent [3H]GABA release produced by exposure of rat brain synaptosomes to different concentrations of alpha-latrotoxin. We also compared PAO action on alpha-latrotoxin- and 4-aminopyridine (4-AP)-evoked [3H]GABA release. The experiments have shown that release of [3H]GABA evoked by the depolarization with 4-AP was decreased by 80% as a result of action of 3 microM PAO and the complete inhibition of release was observed with 10 microM PAO. When alpha-latrotoxin as a stimulant was applied, release of [3H]GABA was increased as toxin concentration used was elevated from 0.5 to 3.0 nM, however, concomitantly, the response of the toxin-induced [3H]GABA release to PAO became attenuated: 10 microM PAO led to almost complete inhibition of the effect of 0.5 nM alpha-latrotoxin and only partly decreased (by 40%) the response to 3.0 nM alpha-latrotoxin. To test whether the efficacy of PAO depended on the toxin-induced outflow of cytosolic [3H]GABA, synaptosomes with depleted cytosolic [3H]GABA pool were also exploited. Depletion was performed by means of heteroexchange of cytosolic [3H]GABA with nipecotic acid. The experiments have shown that treatment of loaded synaptosomes with nipecotic acid resulted in some increase of [3H]GABA release evoked by 0.5 nM alpha-latrotoxin, but in the two-fold decrease of the response to 3.0 nM alpha-latrotoxin. PAO essentially inhibited [3H]GABA release from depleted synaptosomes irrespective of alpha-latrotoxin concentration used. Therefore, the amount of [3H]GABA released from cytosolic pool determined, in considerable degree, the insensitivity of alpha-latrotoxin action to PAO. Thus, our data show that subnanomolar concentrations of alpha-latrotoxin may be used for stimulation of exocytotic release of [3H]GABA. Exposure of synaptosomes with nanomolar toxin concentrations leads not only to stimulation of exocytosis, but also to leakage of [3H]GABA from cytosolic pool. PAO potently inhibits exocytotic release of [3H]GABA and its inhibitory effectiveness is diminished as far as the outflow of [3H]GABA is elevated.  相似文献   
7.
alpha-Latrotoxin, a presynaptic neurotoxin from the venom of Latrodectus mactans tredecimguttatus, induces massive [3H]GABA release from rat brain synaptosomes as a result of interaction with either Ca(2+)-dependent (neurexin 1 alpha or Ca(2+)-independent (latrophilin) membrane receptor. The main aim of the study was to elucidate whether the binding of alpha-latrotoxin to different types of receptors led to [3H]GABA secretion from one pool or in each case the source of neurotransmitter differs: in the presence of Ca2+ exocytosis is induced, while in the absence of Ca(2+)--outflow by mobile membrane GABA transporter from cytoplasm. We examined the effect of the depletion of cytosolic [3H]GABA pool by competitive inhibitors of the GABA transporter (nipecotic acid and 2,4-diaminobutyric acid) on the alpha-latrotoxin-stimulated neurotransmitter release. We also compared the influence of these agents on neurosecretion, evoked by depolarization with that evoked by alpha-latrotoxin. Depolarization was stimulated by 4-aminopyridine in the Ca(2+)-containing saline and high KCl in Ca(2+)-free medium. In synaptosomes treated with nipecotic acid unstimulated [3H]GABA release was significantly augmented and high KCl-evoked Ca(2+)-independent [3H]GABA release was essentially inhibited. But under the same conditions neurosecretion stimulated by alpha-latrotoxin greatly raised with respect to the control response. The similar results were obtained with the synaptosomes treated with 2,4-diaminobutyric acid. Another way to determine which of GABA pool is the target of alpha-latrotoxin action lay in analysis of the toxin effects on the preliminary depolarized synaptosomes. alpha-Latrotoxin influence was diminished by the preceding depolarization by 4-aminopyridine in Ca2+ presence. But after the high KCl stimulation effect of alpha-latrotoxin didn't change. These data suggest that alpha-latrotoxin triggers neurotransmitter release from synaptic vesicles via exocytosis. We suppose that the type of membrane receptor does not determine the mechanism of GABA release evoked by the toxin.  相似文献   
8.
Storchak  L.  Tarasenko  A.  Linetska  M.  Pozdnyakova  N.  Himmelreich  N. 《Neurophysiology》2002,34(5):321-325
The main inhibitory neurotransmitter GABA in the mammalian brain is distributed in the nerve terminals between two pools, vesicular (synaptic vesicles) and cytosolic. GABA is released from these pools by different mechanisms; there are calcium-activated exocytotic release and calcium-independent sodium-dependent release from the cytosolic pool (resulting from the membrane GABA transporter reversal). We investigated the influence of temperature on [3H]GABA release from rat brain synaptosomes, which was induced by stimulation of both these processes. In addition, we used -latrotoxin as a stimulant of [3H]GABA release. Synaptosomes from the rat brain were used in the experiments. 4-Aminopyridine (4-AP) and high [KCl] were applied to stimulate calcium-activated and calcium-independent [3H]GABA release, respectively. 4-AP-evoked [3H]GABA release was of the same intensity at 37 and 25°C (10.1 ± 1.2 and 10.1 ± 0.8% of total [3H]GABA incorporated into the synaptosomes, respectively). The effect of 4-AP on the 45Ca2+ influx into synaptosomes was also temperature-independent: 0.775 ± 0.075 and 0.725 ± 0.100 nmol/min/mg of protein at 37 and 25°C, respectively. A drop in the effect of 4-AP was observed only at 15°C. When synaptosomes were depolarized with 50 mM KCl, a temperature decrease from 37°C to 25°C resulted in a twofold drop in the [3H]GABA release, from 20.5 ± 1.4 to 10.3 ± 0.7%; at 15°C [3H]GABA release dropped to less than one-third of the norm (6.0 ± 0.5%). -Latrotoxin-stimulated [3H]GABA release was diminished from 32.5 ± 2.5 at 37°C to 17.2 ± 1.3 at 25°C and 5.9 ± 0.4% at 15°C and was not affected by the presence or absence of calcium in the medium. It seems likely that the observed effect of temperature can be interpreted as based on the temperature dependence of the -latrotoxin insertion into the membrane. It is suggested that the pattern of the temperature sensitivity of GABA release from the synaptosomes can be used as a criterion for identification of the mode of neurotransmitter release.  相似文献   
9.
Ca(2+)-independent [(3)H]GABA release induced by alpha-latrotoxin was found to consist of two sequential processes: a fast initial release realized via exocytosis and more delayed outflow through the plasma membrane GABA transporters [Linetska, M.V., Storchak, L.G., Tarasenko, A.S., Himmelreich, N.H., 2004. Involvement of membrane GABA transporters in alpha-latrotoxin-stimulated [(3)H]GABA release. Neurochem. Int. 44, 303-312]. To characterize the toxin-stimulated events attributable to the transporter-mediated [(3)H]GABA release from rat brain synaptosomes we studied the effect of alpha-latrotoxin on membrane potentials and generation of the synaptic vesicles proton gradient, using fluorescent dyes: potential-sensitive rhodamine 6G and pH-sensitive acridine orange. We revealed that alpha-latrotoxin induced a progressive dose-dependent depolarization of mitochondrial membrane potential and an irreversible run-down of the synaptic vesicle proton gradient. Both processes were insensitive to the presence of cadmium, a potent blocker of toxin-formed transmembrane pores, indicating that alpha-latrotoxin-induced disturbance of the plasma membrane permeability was not responsible to these effects. A gradual dissipation of the synaptic vesicle proton gradient closely coupled with lowering the vesicular GABA transporter activity results in a leakage of the neurotransmitter from synaptic vesicles to cytoplasm. As a consequence, there is an essential increase in GABA concentration in a soluble cytosolic pool that appears to be critical parameter for altering the mode of the plasma membrane GABA transporter operation from inward to outward. Thus, our data allow clarifying what cell processes underlain a recruitment of the plasma membrane transporter-mediated pathway in alpha-LTX-stimulated secretion.  相似文献   
10.
Phenylarsine oxide (PAO) has a number of targets in the neurons, one of them is exocytotic process. In this study, we have focused on the mechanisms of phenylarsine oxide action on Ca(2+)-dependent and Ca(2+)-independent neurotransmitter release from rat brain synaptosomes. We investigated the influence of phenylarsine oxide on: (i) l-[(14)C]glutamate and [(3)H]GABA release and uptake; (ii) plasma membrane potential using a potential-sensitive fluorescent probe rhodamine 6G; (iii) exo/endocytotic process using a pH-sensitive fluorescent probe acridine orange (AO). It has been found that phenylarsine oxide induced deacidification of synaptic vesicles. This effect was completely abolished by preliminary treatment of synaptosomes with a protonophore FCCP indicating that both reagents injured a proton electrochemical gradient. Dissipation of the proton gradient by low concentrations of phenylarsine oxide (not exceed 1 microM) did not prevent KCl-triggered exocytotic response, but essentially modified endocytotic one. At higher concentrations of phenylarsine oxide (up to 10 microM), the proton gradient dissipation was intensified and the exocytotic response was fully abolished. The reagent did not change plasma membrane potential, but depolarized mitochondria. It also caused potent inhibition of the Ca(2+)-stimulated l-[(14)C]glutamate and [(3)H]GABA release and increase the Ca(2+)-independent release of l-[(14)C]glutamate, but not of [(3)H]GABA. Disulfide-reducing reagents (dithiothreitol and beta-mercaptoethanol) completely prevented phenylarsine oxide-evoked injuries. They could also restore the initial levels of the mitochondrial potential, the exocytotic response to KCl and the release and uptake of neurotransmitters. Our data provide the evidence that phenylarsine oxide causes dissipation of synaptic vesicle acidic pool resulting in the reduction of vesicle filling and as consequence in attenuation of Ca(2+)-stimulated neurotransmitter release.  相似文献   
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