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1.
[14C]Glutamine uptake in a crude synaptosomal (P2) fraction, (representing the sum of [14C]glutamine accumulated and [14C]glutamate formed by hydrolysis), is distinct from glutamate uptake. Glutamine uptake is Na+-independent and unaffected by the Na+–K+-ATPase inhibitor ouabain, whereas glutamate uptake is Na+-dependent and inhibited by ouabain. The uptake of both glutamine and glutamate is unaffected by the gamma-glutamyltransferase inhibitor, Acivicin. This indicates that glutamine uptake is not mediated by a carrier, as distinct from that of glutamate, and also not linked to gamma-glutamyl-transferase. Na+ affects the distribution of glutamine-derived glutamate by increasing the synaptosomal content and reducing that of the medium. When glutamate release from synaptosomes preloaded with [14C]glutamate is measured by superfusion technique in order to prevent reuptake, Na+ has been found to inhibit release in a non-depolarizing medium (Ringer buffer with no Ca2+) of the [14C]glutamate as well as of endogenous glutamate. The specific activity of the [14C]glutamine-derived glutamate in the incubation medium is much higher than that in the synaptosomes, indicating that there exists a readily releasable pool of newly formed glutamate in addition to another pool. The latter glutamate pool is partially reduced by Na+.Special Issue Dedicated to Dr. Abel Lajtha. 相似文献
2.
On the significance of perfusion rate in the study of glutamate release from superfused synaptosomes
Keith J. Collard 《Neurochemical research》1996,21(3):319-322
The effect of perfusion rate on the apparent release of [3H]glutamate from prelabelled and superfused rat cortical synaptosomes was examined. The proportion of tissue [3H]glutamate released in response to a 4 ml depolarizing pulse of 15 mM K+ increased almost linearly with perfusion rates from 1 ml min−1 to 10 ml min−1. Release did not increase markedly between 10 ml min−1 and 20 ml min−1. The basal efflux of [3H]glutamate also increased with perfusion rate. The increase in both basal efflux and K+-induced release is interpreted as being due to a greater amount of released transmitter avoiding recapture by uptake processes
as perfusion rate increases. This is supported by the observation that increasing the potential number of uptake sites in
the tissue decreases both the basal and K+-evoked release of the transmitter. The significance of this with respect to optimal perfusion rates for studies on the regulation
of glutamate release is discussed. 相似文献
3.
D. D. Wheeler 《Neurochemical research》1987,12(8):667-680
Kinetics of sodium dependent glutamic acid transport have been studied in rat cortical synaptosomes at sufficiently high glutamic acid concentrations ([G]) to delineate the low affinity transporter. Computer optimization techniques were used to fit the data to models which account for the sodium and substrate dependence of uptake. The data fit about equally well models consisting of two carriers (Model 1) or one carrier plus a linear component (Model 2). However, the results of further studies were inconsistent with Model 1, but totally consistent with Model 2. Thus the results are incompatible with the presence of both high-and low-affinity carriers. The carrier model found in previous studies of high affinity glutamate transport predicts the effects of high [G] and [Na] observed in the present study. The biphasic effect of [Na] on velocity of uptake is the logical consequence of the operation of this model. The rate equation for this model has been utilized to define and compute kinetic parameters which characterize the transporter. These kinetic functions are remarkably similar in shape and magnitude to previous estimates from the studies of the high affinity transport (low [G]). The results of other studies by the author which corroborate and expand the predictions of the kinetic model are discussed. These have been combined with the present results to formulate a rather comprehensive model of glutamate function. This model can be used to describe function in terms of mathematical equations and to make predictions from these equations. These equations relate velocity of uptake and the kinetic parameters to sodium and substrate concentration, velocity to membrane potential, distribution ratio to the electrochemical potential, and release to time, compartment sizes, and exchange constants. Such processes as concentration in the presynaptic terminal, depolarization induced release, re-uptake following stimulus induced release, and postsynaptic depolarization are all possible consequences of the operation of this model. The wide applicability of the model to the transport of other substrates in addition to glutamate is discussed. 相似文献
4.
The effect of short-term hypoxia on the release of [3H]glutamate from preloaded hippocampal and cortical synaptosomes was studied in a rapid superfusion system. The technique minimised the loss of released glutamate by reuptake. The results indicated that the effects of short term hypoxia were qualitatively similar to those reported in previous studies using more long-term hypoxia, but were significantly smaller. The non-Ca2+-dependent efflux of glutamate from cortical synaptosomes was increased by hypoxia as was the Ca2+-dependent release from hippocampal tissue. Possible mechanisms for these findings were discussed. The small amplitude of these changes in comparison to the effects seen in slowly perfused tissue in vitro and in vivo indicated that the contribution made by changes in neuronal efflux to the overall increase in extracellular glutamate seen in hypoxia is relatively minor. 相似文献
5.
Toluene is a widely used organic solvent that can produce acute central nervous system (CNS) effects. Since toluene reaches relatively high concentrations in the CNS and is extremely lipophilic, we investigated its effects on rat brain membrane composition and function. Toluene (1 g/kg, lh) did not alter total brain microsomal phospholipid (PL) or cholesterol (CL) content. However, synaptosomal PL was decreased (24%), while synaptosomal CL was unaltered. The PL/CL ratio, an indirect index of membrane fluidity, did not change, suggesting that toluene did not affect membrane fluidity. Fluorescence polarization studies employing 1,6-diphenyl-1,3,5-hexatriene (DPH) showed that toluene did not alter synaptosomal membrane fluidity after administration in vivo (1 g/kg) or in vitro (0.5 to 5.0 mM). Dose-response and time-course studies showed that toluene maximally decreased synaptosomal PL after 1 g/kg, 1 h. The dose-response and time-course studies also showed that the toluene-induced decreases in PL were a result of specific decreases in phosphatidylethanolamine (PE). Since PE was decreased, we assessed whether toluene altered synaptosomal membrane function by investigating phospholipid methylation, a reaction which uses PE as its initial substrate. Toluene decreased the incorporation of methyl groups into lipid when [3H]-methionine was used as the methyl donor, but did not affect methylation when [3H]-adenosylmethionine was the methyl donor. These data suggest that toluene-induced specific decreases in synaptosomal PE and inhibition of phospholipid methylation may alter normal synaptic function and play a critical role in the mechanism(s) of action of toluene's CNS effects. 相似文献
6.
The uptake ofl-carnitine was characterized in mouse brain synaptosomal preparations, with an emphasis on mutual interactions with GABA uptake systems. The uptake consisted of nonsaturable diffusion and one saturable energy- and sodium-dependent component. GABA,l-DABA and nipecotate were strong and hypotaurine and homotaurine moderate inhibitors of the uptake. The inhibition by GABA was shown to be competitive. GABA uptake contained two saturable transport components, high- and low-affinity. It was most strongly inhibited by nipecotate andl-DABA, but also by carnitine and hypotaurine. The high-affinity uptake of GABA was competitively inhibited by carnitine, but the inhibition of the low-affinity uptake of GABA was of the mixed type. The results suggest that GABA and carnitine share the same carrier system at synaptosomal membranes. However, GABA is the preferred substrate and the carnitine concentrations which significantly inhibited GABA uptake exceed the physiological carnitine levels in vivo. 相似文献
7.
Using synaptosomes prepared from whole rat brain, the spontaneous, calcium-independent, and calcium-dependent release of glutamate and GABA was assessed. Time intervals of 1–30 seconds were studied. Spontaneous release of glutamate (but not GABA) was elevated by 10 M NMDA or AMPA by thirty seconds. This stimulation was partially calcium-dependent. Calcium-dependent release induced by 30 mM KCl was biphasic, confirming previous findings. This release was stimulated at all time periods by the presence of 10 M NMDA or AMPA in an antagonist-sensitive manner. These data suggest that glutamate and GABA are released from vesicular stores in rat synaptosomes and that some of this release is modulated by presynaptic glutamate receptors. 相似文献
8.
Expcsure of adult male albino rats to higher environmental temperature (HET) at 35° for 2–12 hr or at 45° for 1–2 hr increases hypothalamic synaptosomal acetylcholinesterase (AChE) activity. Synaptosomal AChE activity in cerebral cortex of rats exposed to 35° for 12 hr and in cerebral cortex and pons-medulla of rats exposed to 45° for 1–2 hr are also activated. AChE activity of synaptosomes prepared from normal rat brain regions incubated in-vitro at 39° or 41° for 0.5 hr increases significantly in cerebral cortex and hypothalamus. The activation of AChE in ponsmedulla is also observed when this brain region is incubated at 41° for 0.5 hr. Increase of (a) the duration of incubation at 41° and (b) the incubation temperature to 43° under in-vitro condition decreases the synaptosomal AChE activity. Lioneweaver-Burk plots indicate that (a) in-vivo and invitro HET-induced increases of brain regional synaptosomal AChE activity are coupled with an increase ofV
max without any change inK
m (b) very high temperature (43° under in-vitro condition) causes a decrease inV
max with an increase inK
m of AChE activity irrespective of brain regions. Arrhenius plots show that there is a decrease in transition temperature in hypothalamus of rats exposed to either 35° or 45°; whereas such a decrease in transition temperature of the pons-medulla and cerebral cortex regions are observed only after exposure to 45°. These results suggests that heat exposure increases the lipid fluidity of synaptosomal membrane depending on the brain region which may expose the catalytic site of the enzyme (AChE) and hence activate the synaptosomal membrane bound AChE activity in brain regions. Further the in-vitro higher temperature (43°C)-induced inhibition of synaptosomal AChE activity irrespective of brain regions may be the cause iof partial proteolysis/disaggregation of AChE oligomers and/or solubilization of this membrane-bound enzyme.To whom to address reprint requests: 相似文献
9.
Depolarization of mouse brain synaptosomes elicits transmitter release and modifies factors that regulate cytoskeletal actin (C-actin) levels. We previously reported (Bernstein and Bamburg, J. Neurosci. 1985. 5:2565–2569) that depolarization causes a release of about 25% of the actin associated with the cytoskeleton of synaptosomal lysates. From our current studies we conclude that depolarization only transiently perturbs the balance in opposing factors which regulate C-actin levels in lysates. Prolonged incubation of the lysates permits the actin to reequilibrate so that no difference between C-actin levels of resting and depolarized synaptosomes is observed. Both the initial transient release of actin from the cytoskeleton and its reassociation with the cytoskeleton during prolonged incubation are calcium dependent and involve factors in both the cytoskeletal and soluble fractions. Depolarization initiates modifications that both increase and decrease the C-actin level probably through mechanisms involving calcium sensitive actin binding proteins.Special issue dedicated to Dr. E. M. Shooter and Dr. S. Varon. 相似文献
10.
A. D. Sherman 《Neurochemical research》1989,14(1):97-101
Synaptosomes were prepared from whole rat brain by six different methods based on gradients of sucrose, Ficoll or Percoll. In these, the synthesis and calcium-specific release of amino acids were assessed by two different procedures. Preparations based on sucrose showed the least calcium-specific release, followed by Ficoll-derived synaptosomes. As previously described, Percoll gave two separate populations of synaptosomes, both very active in terms of release of aspartate, glutamate, and GABA. The data involving release and synthesis were not identical, but did agree in the following: in low-density synaptosomes, haloperidol blocked both the release and synthesis of glutamate, but was without effect in the heavier populatin. 2-chloroadenosine and 2-oxoglutarate affected both release and synthesis only in the high-density population. Dopamine blocked aspartate release and synthesis only in the high-density population. These results suggest that haloperidol interferes with glutamate release and synthesis via a mechanism which may not involve adenosine, serotonin, or dopamine. 相似文献
11.
In a previous study it was shown that the acetyl moiety can be incorporated into the protein of purified synaptosomes (1). This process was inhibited by veratridine and the inhibitory effect was counteracted by tetrodotoxin. This suggested that the flux of Na+ may be related to the acetylation process. We now report that in a sodium free medium the amount of acetylation is increased and the inhibitory effect of veratridine (veratrine) is no longer evident. The addition of Na+ leads to a decrease in acetylation in the presence of veratrine. The presence of scorpion toxin has an effect similar to that of veratrine and the two are not additive. Hence, they appear to act on a common site. Molecular sieve chromatography shows four radioactively labeled peaks, two of which are particularly affected by veratrine. We also show that [3H]acetate incorporated into synaptosomal protein can be recovered as acetyldansylhydrazide. In addition, the concentration of free and bound acetate was measured in whole brain as well as in synaptosomes. 相似文献
12.
13.
Effects of dopamine on the membrane permeability transition, thioredoxin reductase activity, production of free radicals and oxidation of sulfhydryl groups in brain mitochondria and the Ca2+ uptake by Na+-Ca2+ exchange and sulfhydryl oxidation in brain synaptosomes were examined. The brain mitochondrial swelling and the fall of transmembrane potential were altered by pretreatment of dopamine in a dose dependent manner. Depressive effect of dopamine on mitochondrial swelling was reversed by 10 g/ml catalase, and 10 mM DMSO. The activities of thioredoxin reductase in intact or disrupted mitochondria were decreased by dopamine (1-100 M), 25 M Zn2+ and 50 M Mn2+. Dopamine-inhibited enzyme activity was reversed by 10 g/ml SOD and 10 g/ml catalase. Pretreatment of dopamine decreased Ca2+ transport in synaptosomes, which was restored by 10 g/ml SOD and 10 mM DMSO. Dopamine (1-100 M) in the medium containing mitochondria produced superoxide anion and hydrogen peroxide, while its effect on nitrite production was very weak. The oxidation of sulfhydryl groups in mitochondria and synaptosomes were enhanced by dopamine with increasing incubation times. Results suggest that dopamine could modulate membrane permeability in mitochondria and calcium transport at nerve terminals, which may be ascribed to the action of free radicals and the loss of reduced sulfhydryl groups. 相似文献
14.
The hydrophobicity of myelinic, synaptosomal and mitochondrial surfaces in the rat brain was measured using the nonionic surfactant, C18H37O(CH2CH2O)13H. This method is based on the adsorption of the hydrophobic alkyl group of the surfactant by the hydrophobic sites on the surfaces. Each preparations was mixed with an excess of the surfactant and the surfactant remaining in the supernatants was determined spectrophotometrically by measuring the absorbance of tetrabromophenolphthalein ethylester at 690 nm. The greatest amount was adsorbed by myelin, followed by synaptosomes and mitochondria. The hydrophobicity is shown to be a reflection of the surface lipids. This method showed good reproducibility and was useful for the quantitative determination of hydrophobicity. 相似文献
15.
K S Prasada Rao C S Chetty C H Trottman J E Uzodinma D Desaiah 《Cell biochemistry and function》1985,3(4):267-272
Effect of tricyclohexylhydroxytin (plictran) on Ca2+-ATPase activity was studied in rat brain synaptosomes under in vitro and in vivo conditions. Plictran inhibited basal Ca2+-ATPase activity with an IC50 value of 6 nM suggesting its interaction with calcium transport phenomenon. Plictran inhibited calmodulin (CaM) activated Ca2+-ATPase in a concentration-dependent manner. A complete reversal of calmodulin activation of Ca2+-ATPase was observed with 2-3 nM plictran. A 50 per cent decrease of CaM activated Ca2+-ATPase was observed with 0.5 nM plictran, a concentration at which no significant effect was observed on basal enzyme activity. Of all the brain fractions studied, calmodulin levels in P2 fractions alone were reduced significantly to about 75 per cent of control values in plictran treated rats. The synaptosomal Ca2+-ATPase was also decreased by 35 per cent, 42 per cent and 65 per cent in 10, 20 and 40 mg plictran kg-1 day-1 treated rats for 3 days respectively. The activity levels of Ca2+-ATPase in 10 and 20 mg plictran kg-1 day-1 treated rats were restored to normal level by exogenously added calmodulin. These results suggest that plictran may disrupt synaptic function by altering calcium and calmodulin regulated processes in the central nervous system. 相似文献
16.
It had been previously demonstrated that the oleate activation of synaptosomal membrane phospholipase D liberated choline which was available for acetylcholine formation. The present investigations were undertaken to determine if oleate might have an effect on choline uptake by synaptosomes. It was observed that oleate interfered with choline uptake when incubations were carried out at 37°C but uptake was stimulated at 3°C. Oleate was the most effective fatty acid of several tested. Preliminary observations suggest the presence of a membranous form of choline acetyltransferase. 相似文献
17.
Long lasting alterations of synaptosomal amino acid neurotransmitters following a single or several audiogenic seizures and/or acoustic stimulations were investigated in six brain areas-olfactory bulbs (OB), amygdala (A), hippocampus (Hi), cerebellum (C), inferior colliculus (IC), ponsmedulla (P)- of three sublines of Rb mice: audiogenic seizure-prone Rb1 and Rb2, seizure-resistant Rb3. Changes in the synaptosomal levels of aspartate (Asp), glutamate (Glu), taurine (Tau), 4-amino butyrate (GABA), glycine (Gly) and some closely related precursors, serine (Ser) and glutamine (Gln), were recorded 15–18 hours after a single or multiple acoustic stimulations. Changes were more frequent, or larger, after polystimulation. Some alterations appeared to be attributable to an effect of the acoustic stress.In both seizure-prone sublines, after a single or repeated seizures, an increase in synaptosomal Asp was observed in IC. Decreases in Asp and Tau in OB and Ser in A, an increase in Gln in IC were only observed after repeated seizures, in Rb1 and Rb2 mice.Abbreviations used GABA
4-aminobutyrate
- Tau
taurine
- Gly
glycine
- Ser
serine
- Asp
aspartate
- Glu
glutamate
- Gln
glutamine
- OB
olfactory bulbs
- A
amygdala
- Hi
hippocampus
- C
cerebellum
- IC
interior colliculus
- P
pons
Professeur Paul Mandel passed away on 6th October, 1992Special issue dedicated to Dr. Bernard W. Agranoff. 相似文献
18.
Synaptosomes, isolated from the whole brain of young (3 months) and old (24 months) rats were used to study the major bioenergetic systems of neuronal mitochondria in situ, within the synaptosome. Approximately 85% of the resting oxygen consumption of synaptosomes from both young and old rats was a result of proton leak (and possibly other ion cycling) across the mitochondrial inner membrane. There were no significant differences between synaptosomes from the young and old rats in the kinetic responses of the substrate oxidation system, the mitochondrial proton leak and the phosphorylation system to changes in the proton electrochemical gradient. Flux control coefficients of 0.71, 0.27 and 0.02 were calculated for substrate oxidation system, phosphorylation system and the proton leak, respectively, at maximal ATP producing capacity in synaptosomes from young animals. The corresponding values calculated for synaptosomes from old animals were 0.53, 0.43 and 0.05. Thus substrate oxidation had greatest control over oxygen consumption at maximal phosphorylating capacity for synaptosomes from whole brain, with proton leak, having little control under maximal ATP producing capacity. The uncoupled rate of oxygen consumption, in the presence of the mitochondrial uncoupler, carbonyl cyanide p-trifluoromethoxyphenylhydrazone (FCCP), was significantly lower (p = 0.0124) in synaptosomes from old rats (6.08 +/- 0.42, n = 11) when compared with those from the young rats (7.87 +/- 0.48, n = 8). Thus, there is an impaired flux through the substrate oxidation system is synaptosomes from old rats, as compared to synaptosomes from the young animals. These in situ results may have important implications for the interpretation of theories that age-dependent impairment of mitochondrial energy production may result in increased susceptibility to neurodegeneration. 相似文献
19.
Summary The heterogeneity of a synaptosomal preparation was studied by the use of affinity partitioning in combination with centrifugal counter-current distribution. Hexaethonium-poly(ethyleneglycol) was used as the extracting agent. The fractions were analyzed for: light scattering, protein, choline acetyltransferase, L-glutamate decarboxylase, glutamine synthetase, 2,3-cyclicnucleotide-3'-phosphohydrolase, acetylcholinesterase and succinate dehydrogenase. The material was fractionated into three main fractions which differed in their content of marker-enzymesAbbreviations AChE
Acetylcholinesterase
- CCD
Counter Current Distribution
- ChAT
Choline Acetyltransferase
- CNP:ase
2,3-Cyclicnucleotide-3-phosphohydrolase
- GAD
L-Glutamate decarboxylase
- GS
Glutamine Synthetase
- HE-PEG
HexaethoniumPoly(Ethylene Glycol)
- PEG
Poly(Ethylene Glycol)
- QNB
Quinuclidine Benzilate
- SDH
Succinate Dehydrogenase
- TEA
Tetraethylammonium 相似文献
20.
Vatassery Govind T. Lai James C. K. Smith W. Ed Quach Hung T. 《Neurochemical research》1998,23(2):121-125
We examined the influence of aging upon the uptake of glutamate by synaptosomes, and the oxidation of Synaptosomal vitamin E. Synaptosomes isolated from the cerebral hemispheres of Fischer 344 rats, 4 and 24 months old, were suspended at 37°C in buffer (pH 7.4) simulating extracellular fluid containing 10 mM glucose. The Km for the high affinity uptake of tritium labeled glutamate was 10 M. The uptake of glutamate was lower in synaptosomes from older animals than those from younger animals for periods of up to 20 minutes. Upon incubation with a mixture of ferrous iron and ascorbate, more of the alpha tocopherol in synaptosomes derived from older rats was oxidized than in those derived from younger ones. Older animals may be more susceptible to excitotoxicity because: a) Synaptosomal reuptake of glutamate is less efficient and b) oxidative stress induced by various agents including glutamate may be higher in synaptosomes from the older animal. 相似文献