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1.
In this work, we tested the effect of ion channel blockers and of phorbol ester treatments on [3H]dopamine ([3H]DA) release and neurotensin (NT)-induced facilitation of [3H]DA release from cultures of rat fetal mesencephalic cells. The potassium channel blockers tetraethylammonium and 4-aminopyridine increased basal [3H]DA release and decreased K+-evoked [3H]DA release, whereas apamin was without effect. K+-evoked [3H]DA release was decreased by ω-conotoxin and nifedipine, totally suppressed by cadmium, and unaffected by amiloride. These results show the differential sensitivity of [3H]DA release to blockade of various ion channels and suggest the involvement of N-type, L-type, and non-L-non-N-type, but not T-type, voltage-sensitive calcium channels in K+-evoked release. Phorbol 12-myristate 13-acetate increased both spontaneous and K+-evoked [3H]DA release, suggesting a modulatory action of protein kinase C on DA release in this system. Unexpectedly, however, the effects of the phorbol ester were not counteracted by the protein kinase C inhibitors H7, staurosporine, or polymyxin B. NT-induced facilitation of K+-evoked [3H]DA release was insensitive to most of the ion channel blockers, except cadmium (64% decrease in NT effect), suggesting that the corresponding potassium' and calcium channels were not involved in the effect of NT on [3H]DA release in this system. The NT effect was totally suppressed by phorbol ester treatments, indicating a possible desensitization of the corresponding transduction mechanisms after protein kinase C activation.  相似文献   

2.
Abstract: The potential involvement of L- and N-type voltage-sensitive calcium (Ca2+) channels and a voltage-independent receptor-operated Ca2+ channel in the release of adenosine from dorsal spinal cord synaptosomes induced by depolarization with K+ and capsaicin was examined. Bay K 8644 (10 n M ) augmented release of adenosine in the presence of a partial depolarization with K+ (addition of 6 m M ) but not capsaicin (1 and 10 μ M ). This augmentation was dose dependent from 1 to 10 n M and was followed by inhibition of release from 30 to 100 n M . Nifedipine and nitrendipine inhibited the augmenting effect of Bay K 8644 in a dose-dependent manner, but neither antagonist had any effect on release of adenosine produced by K+ (24 m M ) or capsaicin (1 and 10 μ M ) ω-Conotoxin inhibited K+-evoked release of adenosine in a dose-dependent manner but had no effect on capsaicin-evoked release. Ruthenium red blocked capsaicin-induced release of adenosine but had no effect on K+-evoked release. Although L-type voltage-sensitive Ca2+ channels can modulate release of adenosine when synaptosomes are partially depolarized with K+, N-type voltage-sensitive Ca2+ channels are primarily involved in K+-evoked release of adenosine. Capsaicin-evoked release of adenosine does not involve either L- or N-type Ca2+ channels, but is dependent on a mechanism that is sensitive to ruthenium red.  相似文献   

3.
Abstract: The time course of Ca2+-dependent [3H]acetylcholine ([3H]ACh) release and inactivation of 45Ca2+ entry were examined in rat brain synaptosomes depolarized by 45 m M [K+]o. Under conditions where the intrasynaptosomal stores of releasable [3H]ACh were neither exhausted nor replenished in the course of stimulation, the K+-evoked release consisted of a major (40% of the releasable [3H]ACh pool), rapidly terminating phase ( t 1/2 = 17.8 s), and a subsequent, slow efflux that could be detected only during a prolonged, maintained depolarization. The time course of inactivation of K+-stimulated Ca2+ entry suggests the presence of fast-inactivating, slow-inactivating, and noninactivating, or very slowly inactivating, components. The fast-inactivating component of the K+-stimulated Ca2+ entry into synaptosomes appears to be responsible for the rapidly terminating phase of transmitter release during the first 60 s of K+ stimulus. The noninactivating Ca2+ entry may account for the slow phase of transmitter release. These results indicate that under conditions of maintained depolarization of synaptosomes by high [K+]o the time course and the amount of transmitter released may be a function of the kinetics of inactivation of the voltage-dependent Ca channels.  相似文献   

4.
Abstract: The adrenergic regulation of histamine release was studied in rat brain slices labeled with L-[3H]histidine. Noradrenaline in increasing concentrations progressively inhibited K+-evoked [3H]histamine release from cortical slices, whereas phenylephrine and isoprenaline were ineffective. Yohimbine, a preferential α2-adrenoceptor antagonist, reversed the noradrenaline effect in an apparently competitive manner and with a mean K i value of 30 n M . Phentolamine reversed the noradrenaline effect with a similar potency, whereas propranolol was ineffective. The imidazolines clo-nidine and oxymetazoline acted as partial agonists, oxymeta-zoline even behaving as an apparent antagonist. In vivo clo-nidine also inhibited [3H]histamine formation in cerebral cortex, an effect reversed by the administration of yohimbine. However, yohimbine failed to increase significantly [3H]histamine release in vitro and [3H]histamine formation in vivo, suggesting that adrenergic receptors are not activated by endogenous noradrenaline released under basal conditions. It is concluded that adrenergic α2-adrenoceptors presumably located on histaminergic axons control release and synthesis of histamine in the brain.  相似文献   

5.
Abstract: The effect of platelet-activating factor (PAF) on neurotransmitter release from rat brain slices prelabeled with [3H]acetylcholine ([3H]ACh), [3H]norepinephrine ([3H]NE), or [3H]serotonin ([3H]5-HT) was studied. PAF inhibited K+ depolarization-induced [3H]ACh release in slices of brain cortex and hippocampus by up to 59% at 10 n M but did not inhibit [3H]ACh release in striatal slices. PAF did not affect 5-HT or NE release from cortical brain slices. The inhibition of K+-evoked [3H]ACh release induced by PAF was prevented by pretreating tissues with several structurally different PAF receptor antagonists. The effect of PAF was reversible and was not affected by pretreating brain slices with tetrodotoxin. PAF-induced inhibition of [3H]ACh release was blocked 90 ± 3 and 86 ± 2% by pertussis toxin and by anti-Gαi1/2 antiserum incorporated into cortical synaptosomes, respectively. The results suggest that PAF inhibits depolarization-induced ACh release in brain slices via a Gαi1/2 protein-mediated action and that PAF may serve as a neuromodulator of brain cholinergic system.  相似文献   

6.
We evaluated the impact of environmental training on the functions of pre-synaptic glutamatergic NMDA and α-amino-3-hydroxy-5-methyl-4-isoxazole propionate (AMPA) and nicotinic receptors expressed by hippocampal noradrenergic nerve terminals. Synaptosomes isolated from the hippocampi of mice housed in enriched (EE) or standard (SE) environment were labeled with [3H]noradrenaline ([3H]NA) and tritium release was monitored during exposure in superfusion to NMDA, AMPA, epibatidine or high K+. NMDA -evoked [3H]NA release from EE hippocampal synaptosomes was significantly higher than that from SE synaptosomes, while the [3H]NA overflow elicited by 100 μM AMPA, 1 μM epibatidine or (9, 15, 25 mM) KCl was unchanged. In EE mice, the apparent affinity of NMDA or glycine was unmodified, while the efficacy was significantly augmented. Sensitivity to non-selective or subtype-selective NMDA receptor antagonists (MK-801, ifenprodil and Zn2+ ions) was not modified in EE. Finally, the analysis of NMDA receptor subunit mRNA expression in noradrenergic cell bodies of the locus coeruleus showed that NR1, NR2A, NR2B and NR2D subunits were unchanged, while NR2C decreased significantly in EE mice as compared to SE mice. Functional up-regulation of the pre-synaptic NMDA receptors modulating NA release might contribute to the improved learning and memory found in animals exposed to an EE.  相似文献   

7.
Abstract: Ouabain, an Na+,K+-ATPase inhibitor, increases the release of acetylcholine (ACh) from various preparations in a Ca2+-independent way. However, in other preparations the release of ACh evoked by ouabain is dependent on the presence of extracellular calcium. In the present study, we have labeled the ACh of myenteric plexus longitudinal muscles of guinea pig ileum and compared the effect of calcium channel blockers on ouabain-evoked release of [3H]ACh. Release of [3H]ACh evoked by ouabain is dose dependent and decreased markedly in the absence of calcium or in the presence of cadmium, a nonspecific calcium channel blocker. N-type calcium channel blockage by the ω-conotoxins GVIA (selective N-type calcium channel blocker) and MVIIC (a nonselective calcium channel blocker) inhibited by 45 and 55%, respectively, the release of [3H]ACh. L-type calcium channel suppression by low concentrations of verapamil, nifedipine, and diltiazem had no effect on the release of [3H]ACh. The release of transmitter was also not affected significantly by nickel, a T-type calcium channel blocker. In addition, ω-agatoxin-IVA, at concentrations that block P- and Q-type calcium channels, did not affect significantly the release of [3H]ACh. Thus, extracellular Ca2+ is essential for the release of ACh induced by ouabain from guinea pig ileum myenteric plexus. In this preparation, the N-type calcium channel plays a dominant role in transmitter release evoked by inhibition of Na+,K+-ATPase, but other routes of calcium entry in addition to these channels can also support the release of neurotransmitter induced by ouabain.  相似文献   

8.
Abstract: During K+ -induced depolarization of isolated rat brain nerve terminals (synaptosomes), 1 m M Ba2+ could substitute for 1 m M Ca2+ in evoking the release of endogenous glutamate. In addition, Ba2+ was found to evoke glutamate release in the absence of K+-induced depolarization. Ba2+ (1–10 m M ) depolarized synaptosomes, as measured by voltage-sensitive dye fluorescence and [3H]-tetraphenylphosphonium cation distribution. Ba2+ partially inhibited the increase in synaptosomal K+ efflux produced by depolarization, as reflected by the redistribution of radiolabeled 86Rb+. The release evoked by Ba2+ was inhibited by tetrodotoxin (TTX). Using the divalent cation indicator fura-2, cytosolic [Ca2+] increased during stimulation by approximately 200 n M , but cytosolic [Ba2+] increased by more than 1 μ M . Taken together, our results indicate that Ba2+ initially depolarizes synaptosomes most likely by blocking a K+ channel, which then activates TTX-sensitive Na+ channels, causing further depolarization, and finally enters synaptosomes through voltage-sensitive Ca2+channels to evoke neurotransmitter release directly. Though Ba2+-evoked glutamate release was comparable in level to that obtained with K+-induced depolarization in the presence of Ca2+, the apparent intrasynaptosomal level of Ba2+ required for a given amount of glutamate release was found to be several-fold higher than that required of Ca2+.  相似文献   

9.
Abstract: The ability of adenosine agonists to modulate K+-evoked 4D†-[3H]aminobutyric acid ([3H]GABA) and acetylcholine (ACh) release from rat striatal synaptosomes was investigated. The A2a receptor-selective agonist CGS 21680 inhibited Ca2+-dependent [3H]GABA release evoked by 15 m M KCI with a maximal inhibition of 29 ± 4% (IC50 of ∼4 ± 10 −12 M ). The relative order of potency of three agonists was CGS 21680 ± 5'- N -ethylcarboxamidoadenosine > R-phenylisopropyladenosine (R-PIA), with the inhibition being blocked by A2a receptor-selective antagonists (CP 66,713 and CGS 15943A) but not by the A1-selective antagonist 8-cyclopentyl-1,3-dipropylxanthine (DPCPX). When release of [3H]GABA was evoked by 30 mM KCI, no significant inhibition was observed. In contrast, CGS 21680 stimulated the release of [3H]ACh evoked by 30 m M KCI, with a maximal stimulation of 26 ± 5% (IC50 of ∼10−11 M ). This effect was blocked by CP 66,713 but not by DPCPX. The A1 agonist R -PIA inhibited [3H]ACh release, an effect blocked by DPCPX. It is concluded that adenosine A2a receptors are present on both GABAergic and cholinergic striatal nerve terminals where they inhibit and stimulate transmitter release, respectively. Key Words : GABA—Acetylcholine—Adenosine receptors—Striatum.  相似文献   

10.
Abstract: In this study we demonstrate that 50 mRS K+ stimulates the conversion of L-[3H] arginine to L-[3H] citrulline and that this effect is blocked by 10 μ M AT-nitro- l -arginine, a nitric oxide synthase inhibitor, and Ca2+-free conditions. Amiloride (1 m M ) and low Na+ conditions were used to test the possible involvement of the Na+-Ca2+ exchanger. These treatments were without effect. The calcium channel blockers 10 mRS Mg2+, 100 μ M Cd2+, and 10 mRS Co2+ also blocked the K+ response, suggesting the involvement of voltage-dependent calcium channels (VDCCs). The specific VDCC involved seems to be the P type, as funnel-web spider toxin blocked the response whereas 200 μ M Ni2+, 10 μ M nifedipine, and 100 n M ω-conotoxin did not.  相似文献   

11.
Abstract: The effect of tetanus toxin pretreatment on K+ -stimulated [3H]γ-aminobutyric acid release from neuron-enriched cerebellar cell cultures at various stages during their development in vitro was assessed. Tetanus toxin had little inhibitory effect on immature (1-3-day-old) cultures, but markedly reduced K+-evoked [3H]γ-aminobutyric acid release from 7- and 14-day-old cultures (∼80% inhibition). It is suggested that cerebellar neurons in culture develop tetanus toxin-sensitive transmitter release mechanisms similar to their in vivo counterparts.  相似文献   

12.
Abstract: In adrenal chromaffin cells, depolarization-evoked Ca2+ influx and catecholamine release are partially blocked by blockers of L-type voltage-sensitive Ca2+ channels. We have now evaluated the sensitivity of the dihydropyridine-resistant components of Ca2+ influx and catecholamine release to a toxin fraction (FTX) from the funnel-web spider poison, which is known to block P-type channels in mammalian neurons. FTX (1:4,000 dilution, with respect to the original fraction) inhibited K+-depolarization-induced Ca2+ influx by 50%, as monitored with fura-2, whereas nitrendipine (0.1–1 μ M ) and FTX (3:3), a synthetic FTX analogue (1 m M ), blocked the [Ca2+]i transients by 35 and 30%, respectively. When tested together, FTX and nitrendipine reduced the [Ca2+]i transients by 70%. FTX or nitrendipine reduced adrenaline and noradrenaline release by ∼80 and 70%, respectively, but both substances together abolished the K+-evoked catecholamine release, as measured by HPLC. The ω-conotoxin GVIA (0.5 μ M ) was without effect on K+-stimulated 45Ca2+ uptake. Our results indicate that FTX blocks dihydropyridine- and ω-conotoxin-insensitive Ca2+ channels that, together with L-type voltage-sensitive Ca2+ channels, are coupled to catecholamine release.  相似文献   

13.
In this study, we investigate the effects of chronic administration of (−)nicotine on the function of the NMDA-mediated modulation of [3H]dopamine (DA) release in rat prefrontal cortex (PFC) and nucleus accumbens (NAc). In the PFC synaptosomes NMDA in a concentration-dependent manner evoked [3H]DA release in rats chronically treated with vehicle (14 days) with an EC50 of 13.1 ± 2.0 μM. The NMDA-evoked overflow of the [3H]DA in PFC nerve endings of rats treated with (−)nicotine was significantly lower (−43%) than in vehicle treated rats. The EC50 was 9.0 ± 1.4 μM. Exposure of NAc synaptosomes of rats treated with vehicle to NMDA produced an increase in [3H]DA overflow with an EC50 of 14.5 ± 5.5 μM. This effect was significantly enhanced in chronically treated animals. The EC50 was 10.5 ± 0.5 μM. The K+-evoked release of [3H]DA was not modified by the (−)nicotine administration. Both the changes of the NMDA-evoked [3H]DA overflow in the NAc and PFC disappeared after 14 days withdrawal. The results show that chronic (−)nicotine differentially affects the NMDA-mediated [3H]DA release in the PFC and NAc of the rat.  相似文献   

14.
Abstract: Amyloid β protein (Aβ), the central constituent of senile plaques in Alzheimer's disease (AD) brain, is known to exert toxic effects on cultured neurons. The role of the voltage-sensitive Ca2+ channel (VSCC) in β(25–35) neurotoxicity was examined using rat cultured cortical and hippocampal neurons. When L-type VSCCs were blocked by application of nimodipine, β(25–35) neurotoxicity was attenuated, whereas application of ω-conotoxin GVIA (ω-CgTX-GVIA) or ω-agatoxin IVA (ω-Aga-IVA), the blocker for N- or P/Q-type VSCCs, had no effects. Whole-cell patch-clamp studies indicated that the Ca2+ current density of β(25–35)-treated neurons is about twofold higher than that of control neurons. Also, β(25–35) increased Ca2+ uptake, which was sensitive to nimodipine. The 2',7'-dichlorofluorescin diacetate assay showed the ability of β(25–35) to produce reactive oxygen species. Nimodipine had no effect on the level of free radicals. In contrast, vitamin E, a radical scavenger, reduced the level of free radicals, neurotoxicity, and Ca2+ uptake. These results suggest that β(25–35) generates free radicals, which in turn, increase Ca2+ influx via the L-type VSCC, thereby inducing neurotoxicity.  相似文献   

15.
Abstract: The acute and chronic effects of opioid exposure on [3H]norepinephrine ([3H]NE) release were examined in cell cultures of embryonic rat locus coeruleus (LC). Initial morphological and biochemical characterization of the cultures indicated that the cells exhibited properties similar to those observed in situ. Specific [3H]NE uptake was saturable with a K m value of 222 ± 52 n M . [3H]NE accumulated by LC cells was released in response to 20 m M K+ stimulation, in a calcium-dependent manner. Both components of neurotransmitter release, spontaneous and K+ evoked, were significantly inhibited by β-endorphin, with the latter being maintained in the presence of tetrodotoxin. The pharmacology of the opioid effect was consistent with that of μ-receptor activation. The effect of chronic exposure to the μ-selective agonist fentanyl (1 μ M ) was examined following 4 days of drug treatment. Although there was no significant effect of fentanyl on K+-evoked [3H]NE release, these cells were tolerant to the acute inhibitory effect of β-endorphin. These results indicate that this is an appropriate system for examining the effects of acute and chronic opioid treatment on noradrenergic cells in vitro. In addition, this system may be useful as a CNS model for examining mechanisms that underlie tolerance and dependence following chronic opioid exposure.  相似文献   

16.
Abstract: Elevated concentrations of extracellular K+ increased inositol phosphate accumulation in primary cultures of chick retinal photoreceptors and multipolar neurons. K+-evoked stimulation of inositol phosphate accumulation was greater in photoreceptor-enriched cell cultures than in cultures where multipolar neurons were the predominant cell type. Destroying multipolar neurons, but not photoreceptors, with kainic acid and N -methyl- d -aspartate did not reduce the K+-evoked stimulation of inositol phosphate accumulation. Both of these observations indicate that the observed effects occur in photoreceptor cells. The K+-evoked stimulation of inositol phosphate accumulation was blocked by omitting Ca2+ from the incubation medium or by adding the dihydropyridine-sensitive Ca2+-channel antagonists, nitrendipine and nifedipine. Bay K 8644, a dihydropyridine agonist, stimulated inositol phosphate accumulation and enhanced the effect of K+. ω-Conotoxin GVIA, an inhibitor of N-type Ca2+ channels, had no significant effect on K+-stimulated inositol phosphate accumulation. Pretreatment with pertussis toxin neither blocked K+-evoked inositol phosphate accumulation nor altered the inhibitory effect of nifedipine. K+-evoked inositol phosphate accumulation appears to reflect activation of phosphatidylinositol-specific phospholipase C, as it is inhibited by U-73122. These results indicate that Ca2+ influx through voltage-gated, dihydropyridine-sensitive channels activates phospholipase C in photoreceptor inner segments and/or synaptic terminals.  相似文献   

17.
Abstract: The effect of tetanus toxin on the uptake and release of radiolabelled transmitters from slices prepared from substantia nigra (SN) and striatum of rats has been investigated. Tetanus toxin-500–750 mouse lethal doses (MLD)-injected into the SN 6 h before preparing the slices significantly reduced the calcium-dependent, potassium-evoked release of [3H]GABA. Endogenous GABA levels in the SN and [3H]GABA uptake by nigral slices were unaffected by pretreatment with the toxin. Injections of tetanus toxin (1000–2000 MLD) into the striatum significantly reduced the calcium-dependent, potassium-evoked release of [14C]GABA and also [3H]dopamine, but had no effect on the K+-evoked release of [3H]5-hydroxytryptamine or [14C]acetylcholine. It is concluded that tetanus toxin inhibits GABA release directly and not by interference with synthesis or inactivation processes.  相似文献   

18.
Abstract: To test the hypothesis that a pool of newly synthesized acetylcholine (ACh) turns over independently of preformed ACh, compartmentation and K+ -evoked release of ACh were examined in perfused synaptosomal beds intermittently stimulated by 50 m M K+. In resting synaptosomes, endogenous and labeled ACh was distributed between synaptic vesicles and the cytoplasm in a dynamic equilibrium ratio of 4:6. In the absence of new ACh synthesis, five sequential K+ -depolarizations caused a decremental release of preformed labeled ACh totaling 30% of the initial transmitter store. Further depolarization evoked little additional release, despite the fact that 60% of the labeled ACh remained in these preparations. Release of the preformed [14C]ACh was unaltered while new ACh was being synthesized from exogenous [3H]choline. Since the evoked release of [3H]ACh was maintained while that of [14C]ACh was decreasing, the [3H]ACh/[14C]ACh ratio in perfusate increased with each successive depolarization. This ratio was six to ten times higher than the corresponding ratio in vesicles or cytoplasm. These results indicate that the newly synthesized ACh did not equilibrate with either the depot vesicular or cytoplasmic ACh pools prior to release.  相似文献   

19.
Abstract: We have used the human sympathetic neuronal line SH-SY5Y to investigate the effects of hypoxia on noradrenaline (NA) release evoked by either raised [K+]o (100 m M ) or the nicotinic acetylcholine receptor (nAChR) agonist dimethylphenylpiperazinium iodide (DMPP). NA release was monitored by loading cells with [3H]NA and collecting effluent fractions from perfused cells kept in a sealed perifusion chamber. Cells were challenged twice with either stimulus and release was expressed as that evoked by the second challenge as a fraction of that evoked by the first. K+-evoked release was unaffected by hypoxia (P o 2≅ 30–38 mm Hg), but release evoked by DMPP was significantly increased. For both stimuli, replacement of Ca2+o with 1 m M EGTA abolished NA release. K+-evoked release was also dramatically reduced in the presence of 200 µ M Cd2+ to block voltage-gated Ca2+ channels, but DMPP-evoked release was less affected. In hypoxia, DMPP-evoked Cd2+-resistant NA release was dramatically increased. Our findings indicate that hypoxia increases NA release evoked from SH-SY5Y cells in response to nAChR activation by increasing Ca2+ influx through the nAChR pore, or by activating an unidentified Cd2+-resistant Ca2+-influx pathway. As acetylcholine is the endogenous transmitter at sympathetic ganglia, these findings may have important implications for sympathetic activity under hypoxic conditions.  相似文献   

20.
Abstract: The presynaptic terminals of skate ( Raja montagui ) electric organ were tested for their sensitivity to calcium channel antagonists. Acetylcholine (ACh) release and the elevation of intraterminal Ca2+ concentrations triggered by K+ depolarisation were studied. ACh release was measured as 3H efflux from slices of organ prelabelled with [3H]choline. Depolarisation caused a marked, Ca2+-dependent increase in 3H efflux that was completely blocked by 100 µ M Cd2+ and by 300 n M ω-conotoxin-MVIIC (MVIIC). Inhibition by MVIIC was concentration dependent (IC50 of ∼20 n M ) and reversible. No inhibition was seen with nifedipine (5 µ M ) or the two other peptide antagonists studied: ω-conotoxin-GVIA (GVIA) at 5 µ M and ω-agatoxin-IVA (Aga-IVA) at 1 µ M . In a "nerve plate" preparation (a presynaptic plexus of nerve fibres, Schwann cells, and nerve terminals) changes in intraterminal Ca2+ concentrations were measured by microfluorimetry using fluo-3. An increase in fluorescence, indicating a rise in the free [Ca2+], rapidly followed K+ depolarisation, and this change was restricted to the nerve terminals. This response was insensitive to nifedipine (5 µ M ), GVIA (5 µ M ), and Aga-IVA (300 n M ) but almost completely abolished by MVIIC (1 µ M ). MVIIC inhibition was concentration dependent and partially reversible. These results show that the nerve terminals in skate electric organ have calcium channels with a pharmacological sensitivity that is markedly different from the established L, N, and P types in other systems but shares some, but not all, of the features of the recently described Q type.  相似文献   

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