首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 15 毫秒
1.
Guinea-pig cerebral cortical synaptosomes were preincubated for 60 min with 100 microM D-aspartate, L-aspartate, or L-glutamate. The total D- plus L-aspartate content of the synaptosomal fraction increased to 235%, 195%, or 164%, respectively, of the control. Despite this no increase was seen in the very low KCl evoked, Ca2+-dependent release of aspartate. Preincubation with the three amino acids changed the synaptosomal glutamate content to 78% (D-aspartate), 149% (L-aspartate), or 168% (L-glutamate) of control. However there was no statistically significant effect of these preincubations on the extent of Ca2+-dependent glutamate release. Thus the Ca2+-dependent release of aspartate and glutamate is not determined by the total synaptosomal content of these amino acids. The addition of 0.1-0.5 mM glutamine to the incubation caused a massive appearance of glutamate in the extrasynaptosomal medium. Analysis of specific activities showed that glutamine was hydrolysed directly by an extrasynaptosomal glutaminase, and that intrasynaptosomal glutamate was predominantly labelled by uptake of this glutaminase-derived glutamate. No increase was seen in the extent of Ca2+-dependent release of glutamate (by fluorimetry) either after preincubation with glutamine or in the continued presence of glutamine. Thus we are unable to confirm reports that glutamine expands the transmitter pool of glutamate. The extrasynaptosomal glutaminase activity in the synaptosomal preparation was inhibited by Ca2+ and activated by phosphate. Identical kinetics were obtained with "free" brain mitochondria, confirming the origin of the glutamine-derived glutamate.  相似文献   

2.
Role of membrane cholesterol in direct and reversed function of Na+ -dependent glutamate transporters and exocytosis was investigated. The depletion of membrane cholesterol by methyl-beta-cyclodextrin (MebetaCD) resulted in a dose-dependent significant reduction of the L-[14C]glutamate uptake by synaptosomes. Treatment of synaptosomes with 15 mM MebetaCD caused a decrease in the velocity of L-[14C]glutamate uptake by 49 +/- 4% (P < or = 0.05). The depolarization stimulated Ca2+ -dependent glutamate release that occurred via reverse functioning of glutamate transporters decreased insignificantly for 1 min from 8.0 +/- 0.4% to 6.7 +/- 0.4% of total accumulated synaptosomal label after MebetaCD treatment. The depletion of membrane cholesterol resulted in a reduction of the depolarization evoked exocytotic release from 8.0 +/- 1.0% to 4.2 +/- 1.0% of total synaptosomal label. Thus, cholesterol depletion was found to decrease significantly the Na+ -dependent uptake and exocytotic release of glutamate.  相似文献   

3.
The paper deals with characteristics of ionic alpha-latrotoxin-induced permeability of rat brain synaptosomes. It has been shown that the addition of alpha-latrotoxin to synaptosomes in the Ca2+-containing media resulted in an extensive and rapid uptake of 45Ca2+ in synaptosomes. alpha -Latrotoxin was not able to enhance the 22Na+ and 86Rb+ uptake or efflux in the Ca2+-containing and Ca2+- and Mg2+-free media. The dye di-O-C3 was used to monitor the membrane potential changes as a consequence of alpha-latrotoxin treatment of synaptosomes. It has been found that alpha-latrotoxin increased synaptosomal fluorescence in the Ca2+-containing media, but failed to induce any increase of fluorescence in Ca2+- and Mg2+-free media. It has been also shown that the calcium uptake induced by alpha-latrotoxin depends on free calcium concentration in synaptosomes. Toxin-induced calcium flows are shown to be of the vector character.  相似文献   

4.
This study examined the hypothesis that ATP, released together with norepinephrine (NE) from brain noradrenergic nerve terminals, may serve as a cosubstrate for an extracellular protein phosphorylation system that regulates the reuptake of the transmitter, NE. The possible regulation of high-affinity uptake (uptake 1) of [3H]NE by divalent cations and ATP, both of which are involved in protein phosphorylation, was examined in rat cerebral cortical synaptosomes. A marked inhibition of uptake 1 by 5'-adenylylimidodiphosphate [App(NH)p], a nonhydrolyzable, competitive antagonist of ATP, was observed. A similar inhibition of uptake was observed when Ca2+ and Mg2+ were both omitted from the incubation medium. App(NH)p distinguished the actions of Ca2+ from those of Mg2+: Ca2+-stimulated uptake 1 was blocked by App(NH)p; Mg2+-stimulated uptake was not. In parallel experiments, the patterns of protein phosphorylation in crude and purified preparations of synaptosomes were examined under conditions similar to those used in uptake assays. A striking correlation was found between the inhibition of uptake 1, by either App(NH)p or Ca-omission, and inhibition of the phosphorylation of one specific, 39,000-dalton, Ca2+-dependent, protein component in synaptosomes. This 39K protein was distinct from the alpha subunit of pyruvate dehydrogenase, a mitochondrial protein of similar electrophoretic mobility. These findings are consistent with the possibility that an ectokinase on synaptosomes utilizes extracellular ATP and Ca2+ in phosphorylating a protein(s) associated with the regulation of NE uptake.  相似文献   

5.
Calcium-Activated ATPases in Presynaptic Nerve Endings   总被引:7,自引:5,他引:2  
We studied the properties of calcium-activated ATPases present in preparations of isolated presynaptic nerve ending (synaptosome) and its subfractions from mouse brain. ATPase activity in the preparation was stimulated by Ca2+ and by Mg2+, but not by Na+ and K+, when each was added alone. The substrate specificities were found to be similar. The ATPases hydrolyzed only the high-energy phosphate bond and similar activity was exhibited for all nucleoside triphosphates tested (ATP, CTP, GTP, UTP). Moreover, the enzymes were insensitive to mitochondrial markers and to ouabain, but were inhibited by La3+. La3+ produced uncompetitive inhibition of Ca2+-ATPase in intact synaptosomes. Inhibition by La3+ was greatly increased after lysis of the synaptosomes, suggesting that the active sites of the enzymes may be on the cytosolic face of the membranes. The Ca2+-ATPase activity in synaptosomes was increased by increasing concentrations of external K+, suggesting that Ca2+ influx may be involved The Ca2+-ATPase in synaptosomal plasma membranes and synaptic vesicles had higher specific activities than those of intact synaptosomes and were activated, both in the presence and the absence of Mg2+, by Ca2+ concentrations approximating the intracellular level (10(-7) M). It is concluded that the nonmitochondrial synaptosomal Ca2+-ATPase may play an important role in the regulation of intracellular Ca2+.  相似文献   

6.
ATP-dependent Ca2+ uptake was investigated at low Ca2+ concentrations (10 microM) in rat retinal synaptosomal and mitochondrial preparations obtained by differential centrifugation on Ficoll gradients. Ca2+ uptake in the synaptosomal and mitochondrial subcellular preparations was stimulated by ATP and additionally stimulated by ATP plus taurine. The ATP-dependent and taurine-stimulated ATP-dependent Ca2+ uptakes were inhibited by mitochondrial metabolic inhibitors (atractyloside, oligomycin, and ruthenium red). These metabolic inhibitors had a greater effect on the ATP-dependent and taurine-stimulated ATP-dependent Ca2+ uptake activities in the mitochondrial preparation than in the synaptosomal preparation. ATP-dependent Ca2+ uptake in a synaptosomal subfraction obtained by osmotic shock was only partially inhibited by atractyloside. ATP-dependent Ca2+ uptake in the synaptosomal subfraction was also stimulated by taurine but to a lesser extent than in either the synaptosomal or mitochondrial preparation. These studies suggest that mitochondria are primarily responsible for taurine-stimulated ATP-dependent Ca2+ uptake in synaptosomal preparations.  相似文献   

7.
Highly purified synaptosomal and subcellular fractions identified as mitochondria and microsomes were obtained by fractionation of brain tissues. The greatest Ca-accumulating capacity and the highest rate of Ca2+ accumulation were revealed in the mitochondrial fraction. Upon further fractionation of the synaptosomal fraction the energy-dependent uptake (accumulation) of Ca2+ was revealed only in the mitochondria. It was demonstrated that opioid peptides accelerate Ca2+ uptake by the synaptosomes in a medium with physiological concentration of K+ and inhibit this process during K+-dependent membrane depolarization. It was shown that beta-endorphine, methionine-encephaline and leucine-encephaline (10(-8)-10(-5) M) inhibit the Ca-accumulating capacity of both mitochondria and microsomes from brain. The experimental data suggest that opioid peptides can modulate the release of neurotransmitters and/or neurohormones by inhibiting the potential-dependent Ca2+ influx into the nerve endings and by decreasing the intrasynaptosomal pool of Ca2+.  相似文献   

8.
Histamine stimulated Ca2+ uptake in synaptosomes was completely inhibited by the slow Ca2+ channel antagonists verapamil, cinnarizine and flunarizine, and slightly inhibited by nifedipine and diltiazem. Ca2+ uptake in synaptosomes depolarized or predepolarized with varying K+ concentrations was increased by histamine, in both conditions, until 30mM K+. At higher K+ concentrations histamine was not able to alter K+ effects in either conditions. 30mM K+ stimulated uptake of Ca2+ in the absence or presence of histamine was not inhibited by verapamil and diltiazem. However nifedipine slightly inhibited K+ and K+ +histamine effects. 3-Isobutyl-1-methyl-xanthine and dibutyryl cyclicAMP potentiated (10%) the uptake of Ca2+ in synaptosomes induced by histamine. Dibutyryl cyclicAMP alone however decreased the basal Ca2+ uptake in a concentration-dependent manner. Verapamil, but not diltiazem, antagonized the effects elicited by 3-isobutyl-1-methyl-xanthine and dibutyryl cyclicAMP in the presence of histamine. The data suggest that the increase in synaptosomal Ca2+ uptake induced by histamine is mediated by the activation of the voltage sensitive calcium channels, and possibly a cyclicAMP-dependent protein kinase phosphorylation can modulate the opening of Ca2+ channels.  相似文献   

9.
The exocytotic release of L-glutamate from guinea-pig cerebral cortical synaptosomes can be extensively inhibited by preincubation with botulinum neurotoxin type A at 37 degrees C for 1-2 h. The toxin has no effect on synaptosomal respiratory control, respiratory capacity, ATP synthesis, plasma-membrane 86Rb+ permeability or plasma-membrane potential, does not inhibit the entry of 45Ca2+ into the synaptosome upon depolarization and does not alter the ability of intrasynaptosomal mitochondria to sequester Ca2+. The blockade of Ca2+-dependent glutamate release may be totally reversed by the Ca2+/2 H+-exchange ionophore ionomycin, but not by increasing extracellular Ca2+ concentration. It is suggested (a) that exocytosis is triggered by the penetration of Ca2+ into an intracellular hydrophobic milieu; (b) that this stage is blocked by the toxin and (c) that ionomycin is able to bypass this block and deliver Ca2+ to the exocytotic apparatus.  相似文献   

10.
The effects of cerebral ischemia, induced for 10 min by bilateral common carotid ligation in the Mongolian gerbil, on the brain and synaptosomal content of phospholipids and free fatty acids were measured. Moreover, the incorporation of arachidonic acid and oleoyl-CoA into phospholipids, as well as the respiration and the accumulation of45Ca, norepinephrine, dopamine, choline, glutamate, and -aminobutyrate in the ischemic brain synaptosomal fraction were studied. Analyses of lipids showed a drop in phospholipids content with concomitant increase of lysocompounds and free fatty acids in ischemic cerebral cortex. Disturbances in lipid metabolism including rapid phospholipids hydrolysis and changes in the incorporation of arachidonic acid into inositol and choline phosphoglycerides were also shown in the synaptosomal fraction of ischemic brain. The uptake of neurotransmitter substances, expressed as a percent of control value, was reduced 21% for norepinephrine, 40% for dopamine, 20% for choline, 24% for glutamate and 13% for -aminobutyrate in ischemic synaptosomes. There was no significant effect of ischemia on synaptosomal respiration and45Ca uptake in both control and high potassium media. the inhibition of neurotransmitter uptake in ischemic brain synaptosomes may be caused by the disturbance of fatty acid metabolism.  相似文献   

11.
S M Dunn 《Biochemistry》1988,27(14):5275-5281
The voltage dependence of binding of the calcium channel antagonist, (+)-[3H]PN200-110, to rat brain synaptosomes and the effects of dihydropyridines on 45Ca2+ uptake have been investigated. Under nondepolarizing conditions (+)-[3H]PN200-110 binds to a single class of sites with a Kd of 0.07 nM and a binding capacity of 182 fmol/mg of protein. When the synaptosomal membrane potential was dissipated either by osmotic lysis of the synaptosomes or by depolarization induced by raising the external K+ concentration, there was a decrease in affinity (approximately 7-fold) with no change in the number of sites. The effects of calcium channel ligands on 45Ca2+ uptake by synaptosomes have been measured as a function of external potassium concentration, i.e., membrane potential. Depolarization led to a rapid influx of 45Ca2+ whose magnitude was voltage-dependent. Verapamil (100 microM) almost completely inhibited calcium uptake at all potassium concentrations studied. In contrast, the effects of dihydropyridines (2 microM) appear to be voltage-sensitive. At relatively low levels of depolarization (10-25 mM K+) nitrendipine and PN200-110 completely inhibited 45Ca2+ influx, whereas the agonist Bay K8644 slightly potentiated the response. At higher K+ concentrations an additional dihydropyridine-insensitive component of calcium uptake was observed. These results provide evidence for the presence of dihydropyridine-sensitive calcium channels in synaptosomes which may be activated under conditions of partial depolarization.  相似文献   

12.
The isotope labeling method was used to study the influence of phospholipases C of different origin and specificity on Ca2+ accumulation in rat brain synaptosomes. It was found that phospholipases C specific to phosphatidylinositides (PI) stimulate Ca2+ transport into synaptosomes, while non-specific phospholipase C, which hydrolyzes different membrane lipid fractions, decreases the Ca2+ content in synaptosomes. It is supposed that the stimulating effect of PI-specific phospholipases C is determined by the activation of PI metabolism, which results in an increase in the content of some PI metabolism products serving as Ca2+ ionophores in synaptosomal membranes. The inhibition of Ca2+ uptake by synaptosomes treated with non-specific phospholipase C is thought to result from partial disruption of synaptosomal membranes.  相似文献   

13.
Abstract— Uptake systems for [14C]aspartate and [14C]glutamate were characterized in two distinct synaptosomal fractions solated from rabbit retina. The P, synaptosomal fraction was highly enriched in large photoreceptor cell synaptosomes but contained very few conventional sized synaptosomes from amacrine, horizontal or bipolar cells. In contrast, the P2 synaptosomal fraction contained numerous conventional sized synaptosomes and was virtually free of photoreceptor cell synaptosomes. Both synaptosomal fractions took up [14C]aspartate and [14C]glutamate with high affinity [ K m= 1–2μM). Uptake characteristics were similar to those described for high affinity uptake systems in brain synaptosomes, i.e. saturation kinetics; temperature and Na+ dependence. Although the presence of a high affinity uptake system is not a definitive criterion for demonstration of functional neurotransmitter systems, it is an important and necessary prerequisite and can thus be considered as supportive evidence for the involvement of asparate and glutamate in neurotransmission in rabbit retina.  相似文献   

14.
The effect of alpha-tocopherol, the major vitamin E component, on the release of endogenous glutamate has been investigated using rat cerebrocortical nerve terminals. Results showed that alpha-tocopherol facilitated the Ca2+-dependent but not the Ca2+-independent glutamate release evoked by 4-aminopyridine (4AP). This release facilitation was insensitive to glutamate transporter inhibitor L-trans-PDC or DL-TBOA, and blocked by the exocytotic neurotransmitter release inhibitor tetanus neurotoxin, indicating that alpha-tocopherol affects specifically the physiological exocytotic vesicular release without affecting the non-vesicular release. Facilitation of glutamate exocytosis by alpha-tocopherol was not due to its increasing synaptosomal excitability, because alpha-tocopherol did not alter the 4AP-evoked depolarization of the synaptosomal plasma membrane potential. Rather, examination of the effect of alpha-tocopherol on cytoplasmic free Ca2+ concentration revealed that the facilitation of glutamate release could be attributed to an increase in voltage-dependent Ca2+ influx. Consistent with this, the alpha-tocopherol-mediated facilitation of glutamate release was significantly reduced in synaptosomes pretreated with omega-CgTX MVIIC, a wide spectrum blocker of N- and P/Q-type Ca2+ channels. In addition, alpha-tocopherol modulation of glutamate release appeared to involve a protein kinase C (PKC) signalling cascade, insofar as pretreatment of synaptosomes with the PKC inhibitor GF109203X effectively suppressed the facilitatory effect of alpha-tocopherol on 4AP- or ionomycin-evoked glutamate release. Furthermore, alpha-tocopherol increased the phosphorylation of MARCKS, the major presynapic substrate for PKC, and this effect was also significantly attenuated by PKC inhibition. Together, these results suggest that alpha-tocopherol exerts an increase in PKC activation, which subsequently enhances voltage-dependent Ca2+ influx and vesicular release machinery to cause an increase in evoked glutamate release from rat cerebrocortical glutamatergic terminals. This finding might provide important information regarding to the action of vitamin E in the central nervous system.  相似文献   

15.
GABA release and uptake were examined in Genetic Absence Epilepsy Rats from Strasbourg and in non-epileptic control animals, using crude synaptosomes prepared from the cerebral cortex and thalamus. Uptake of [3H]GABA over time was reduced in thalamic synaptosomes from epileptic rats, compared to controls. The affinity of the uptake process in thalamic synaptosomes was lower in epileptic animals. NNC-711, a ligand for the GAT-1 uptake protein, reduced synaptosomal uptake by more than 95%; beta-alanine, an inhibitor selective for the uptake proteins GAT-2 and -3, did not significantly reduce synaptosomal uptake. Autoradiography studies using [3H]tiagabine, a ligand selective for GAT-1, revealed no differences between the strains in either affinity or levels of binding. Ethanolamine O-sulphate (100 microM), a selective inhibitor of GABA-transaminase, did not affect uptake levels. Aminooxyacetic acid (10-100 microM), an inhibitor of GABA-transaminase and, to a lesser extent, glutamate decarboxylase, caused an increase in measured uptake in both thalamic and cortical synaptosomes, in both strains. We found no difference in in vitro basal or KCl-stimulated endogenous GABA release between epileptic and control rats. These results indicate that GABA uptake in the thalamus of Genetic Absence Epilepsy Rats from Strasbourg was reduced, compared to control animals. The lower uptake affinity in the epileptic animals probably contributed to the reduction in uptake over time. Uptake appeared to be mediated primarily by the 'neuronal' transporter GAT-1. Autoradiography studies revealed no differences in the number or affinity of this uptake protein. It is therefore possible that altered functional modulation of GAT-1 caused the decrease in uptake shown in the epileptic animals. Inhibition of GABA-transaminase activity had no effect on measured GABA uptake, whereas a reduction in glutamate decarboxylase activity may have affected measured uptake levels.  相似文献   

16.
Preincubation of intact, purely cholinergic Torpedo synaptosomes with [32P]Pi results in the incorporation of 32P into about 10 specific proteins. Depolarizing the Torpedo synaptosomes by a high K+ buffer or treatment with the Ca2+ ionophore A23187 result in Ca2+ uptake, in acetylcholine (ACh) release, and in a marked increase of 32P incorporation into a specific protein band with an apparent subunit molecular weight of 100,000 (band alpha). The kinetics of synaptosomal 45Ca2+ uptake, of 32P incorporation into band alpha, and of ACh release is similar and reach maximal values about 45 s after the synaptosomes have been treated. Sr2+ and Ba2+ can replace Ca2+ in evoking both K+ depolarization-dependent ACh release and 32P incorporation into band alpha. The effectiveness of these ions (Ca2+ greater than Sr2+ greater than Ba2+) is similar in both cases. The data presented suggest that Ca2+ accumulation by Torpedo synaptosomes leads to an increase in the phosphorylation of a specific protein and to ACh release. This phosphoprotein may be involved in the regulation of presynaptic processes which underly ACh release.  相似文献   

17.
alpha-Latrotoxin causes a massive release of endogenous glutamate from guinea-pig cerebrocortical synaptosomes. There appear to be two components to the release. In the first 2 min following addition of 1.3 nM alpha-latrotoxin, glutamate release is largely energy dependent. Superimposed upon this release is a more slowly developing but ultimately much more extensive release of cytoplasmic glutamate together with gamma-aminobutyric acid and nonvesicular amino acids such as aspartate and alpha-aminoisobutyrate. In parallel with this cytoplasmic release there is an extensive depletion of ATP, a massive rise in cytoplasmic free Ca2+ concentration, and a severe restriction of synaptosomal respiratory capacity. The cytoplasmic release is only partially Na+ dependent, eliminating a simple reversal of the plasma membrane acidic amino acid carrier. It is concluded that alpha-latrotoxin releases both transmitter and cytoplasmic pools of amino acids in synaptosomes and causes a major disruption of terminal integrity.  相似文献   

18.
The Na+ dependence of tyrosine uptake into rat brain synaptosomes and synaptosomal plasma membrane vesicles (SPMV) was examined in the present study. At low tyrosine concentrations, the isoosmotic substitution of Na+ by sucrose in the incubation medium led to an increase of tyrosine uptake in synaptosomes and to a decrease in SPMV. The removal of extracellular Ca2+ and Mg2+ and addition of isoosmotic sucrose completely prevented the augmented tyrosine uptake in Na+-free incubated synaptosomes. Morphological differences were found at the electron-microscopic level when synaptosomes were incubated in Na+-free and Na+-containing media. The internal volume measured for synaptosomes incubated in a Na+-free medium was almost half of that obtained in a Na+-containing medium, in good agreement with the observations made with the electron microscope. Also, the omission of Ca2+ and Mg2+ resulted in a specific swelling of only the synaptosomes incubated in Na+-free medium. When synaptosomes and SPMV were preloaded with several neutral amino acids, the tyrosine uptake rate was greatly increased, indicating fully operational exchange mechanisms for these amino acids. We propose that the enhancement of high-affinity synaptosomal tyrosine uptake observed in Na+-free medium is a consequence of a specific shrinkage of the synaptosomes and a parallel increase of the exchange rate with endogenous neutral amino acids.  相似文献   

19.
Incubation of rat brain synaptosomes prelabeled with [2-3H]inositol resulted in a time-dependent release of labeled inositol 1-phosphate. This process was Ca2+ dependent, and ATP (1 mM) enhanced the inositol 1-phosphate formation three- to fivefold. Using [1-14C]arachidonoyl-phosphatidylinositol which was introduced into saponin-permeabilized synaptosomes, ATP (1 mM) and free Ca2+ (approximately 20 microM) enhanced the phospholipase C hydrolysis of this substrate to form labeled diacylglycerol. When the same permeabilized synaptosomal preparation was incubated with [2-3H]inositol-phosphatidylinositol, ATP not only enhanced the formation of labeled inositol 1-phosphate, but also inhibited the conversion of inositol 1-phosphate to inositol. Furthermore, ATP appeared to reduce the Ca2+ requirement of the phosphatidylinositol-phospholipase C. Inhibition of the conversion of inositol 1-phosphate to inositol could not be overcome by increasing the Mg2+ concentration in the incubation medium. Although the ATP effect is not viewed as a receptor-mediated event, it is possible that such an event may occur in synaptosomes under conditions in which intrasynaptic Ca2+ concentration becomes elevated.  相似文献   

20.
The verapamil-sensitive Ca2+ channel in the synaptosomal plasma membrane is investigated. Verapamil is without effect on Ca2+ uptake or steady-state content in synaptosomes with a polarized plasma membrane, but completely inhibits the additional Ca2+ uptake following plasma-membrane depolarization by high [K+], by veratridine plus ouabain or by high concentrations of the permeant cation tetraphenylphosphonium. Verapamil-insensitive Ca2+ influx and steady-state content are identical in polarized and depolarized synaptosomes, even though the Na+ electrochemical potential is greatly decreased in the latter, indicating that Na+/Ca2+ exchange is not a significant mechanism for Ca2+ efflux under these conditions. A transient Na+-dependent Ca2+ efflux can only be observed on addition of Na+ to Na+-depleted depolarized synaptosomes. While 0.2 mM verapamil decreases the ate of 86Rb+ efflux and 22Na+ entry during depolarization induced by veratridine plus ouabain, the final steady-state Na+ accumulation is not inhibited. Ca2+ efflux from synaptosomes following mitochondrial depolarization does not occur by a verapamil-sensitive pathway.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号