GABA release and uptake measured in crude synaptosomes from Genetic Absence Epilepsy Rats from Strasbourg (GAERS).

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.     

45Ca2+ and 3H-GABA transport in nerve endings separated from the cerebral cortex of rats with hypoparathyroidism

Ca2+ blood serum level was reduced by 34.5% in rats with hypoparathyroidism (HPT) on the 7th-12th day after the damage of parathyroid glands. Synaptosomes isolated from the brain cortex of rats during this period accumulated in a normal medium more 45Ca2+ than synaptosomes from healthy animals. In potassium depolarization, control and experimental synaptosomes accumulated more 45Ca2+, however in HPT the increment in 45Ca2+ uptake in high potassium medium was less temperature-dependent. In normal medium 3H-GABA uptake and release by synaptosomes from the brain of rats with HPT slightly differed from those in the control. On the contrary, 3H-GABA release induced by synaptosome depolarization was depressed in HPT. It is suggested that nerve terminal excretory function disturbances contribute to increased excitability of the central nervous system in hypoparathyroidism.     

Proteasomal Activity in Synaptosomes Obtained from the Cerebral Structures of Rats Subjected to Long-Lasting Immobilization Stress

We studied the proteasomal activity in synaptosomes obtained from tissues of the cerebral cortex, cerebellum, and hippocampus, as well as in the cytoplasm of cells of these brain structures, of rats subjected to long-lasting immobilization stress. It was demonstrated that the chymotrypsin-like activity of proteasomes in synaptosomes of the cerebral cortex and hippocampus of stressed animals was significantly higher (380 and 560%, respectively) as compared with that observed in control rats. The chymotrypsin-like and peptidylglutamyl peptide hydrolase activities of proteasomes in the cytoplasm of cortical cells under stress conditions also increased (210 and 180%, respectively). These data show that the activity of a multicatalytic proteolytic complex is sharply increased in synaptic terminals of cells of the cerebral cortex and hippocampus of stressed animals. The above complex plays a crucial role in the utilization of short-lived proteins whose molecules form receptors and ion channels; the amount of such proteins is especially great in synaptic terminals.     

Effect of Lithium and of Other Drugs Used in the Treatment of Manic Illness on the Cation-Transporting Properties of Na+, K+-ATPase in Mouse Brain Synaptosomes

We have developed and used a novel technique to investigate the effects of lithium and other psychotropic drugs on the cation-transporting properties of the sodium- and potassium-activated ATPase enzyme (Na+,K+-ATPase) in intact synaptosomes. Rubidium-86 uptake into intact synaptosomes is an active process and is inhibited by approximately 75% in the presence of the Na+,K+-ATPase inhibitor acetylstrophanthidin. In vitro addition of lithium to synaptosomes prepared from untreated mice causes a progressive inhibition of acetylstrophanthidin-sensitive 86Rb uptake, but only at concentrations higher than the clinical therapeutic range. However, pretreatment of mice for 14 days in vivo with lithium, carbamazepine, and haloperidol, but not phenytoin, causes a significant stimulation of 86Rb uptake into synaptosomes via Na+,K+-ATPase.     

DEVELOPMENTAL AND OTHER ASPECTS OF [35S]CYSTEINE TRANSPORT BY RAT BRAIN SYNAPTOSOMES

Abstract— Cysteine uptake by rat brain synaptosomes occurs by active transport. The uptake by synaptosomes isolated from newborn brain is slower and the concentration gradient achieved is lower than that observed in adult tissue. Synaptosomal fractions from both adult and newborn rat brains accumulate cysteine by two saturable systems. The calculated parameters show that the maximum rates of cysteine uptake in adult synaptosomes are approximately twice that observed in newborn synaptosomes for both the high and low affinity systems. The uptake by the high affinity system is sodium dependent and is inhibited by glycine and dibasic amino acids. Uptake by synaptosomes from 14-day-old animals is close to that observed in adult tissue. The uptake of cysteine differs greatly from that of cystine since the oxidized form, cystine, is taken up more slowly by systems with low affinities which are sodium independent, do not interact with dibasic amino acids and are independent of age.     

Effect of neuroleptics and antidepressants on the process of gamma-aminobutyric acid-H3 uptake by isolated rat brain nerve endings]

The effects of phenothiazine neuropleptics--chlorpromazine, trifluoperazine, fluphenazine and of antidepressants-imipramine and phthoracizine on the GABA-H3 accumulation by synaptosomes of the rat cerebral cortex were studied. All neuroleptics were found to inhibit the process of neurotransmitter uptake by the brain synaptosomes. Antidepressants were less potent. Chlorpromazine had the highest inhibitory effect on GABA uptake and phthoracizine--the lowest. It is suggested that the influence of neurolptics on GABA uptake could play a certain role in the mode of a synaptic action of these drugs.     

Normal serotonin uptake by blood platelets and brain synaptosomes but selective impairment of platelet serotonin storage in mice with Chediack-Higashi syndrome

The Chediack-Higashi syndrome (CHS) is an autosomal recessive disorder reported in man and in several animal species including the "beige mice" (bg/bg). Among several manifestations of this genetic trait, deficiency of secretable substances - including serotonin - normally stored in platelet dense granules is a characteristic feature. The animal model of Chediak-Higashi syndrome used in the present study provides a unique opportunity to compare the kinetics of serotonin (5-hydroxytryptamine, 5-HT) uptake in platelets and brain synaptosomes in conditions of selective reduction of 5HT concentration in the platelets. The kinetics of 5HT uptake, as measured in the present study, was normal in synaptosomes and platelets from the same animals. The lower intraplatelet 5HT levels in bg/bg animals as compared to normal synaptosomes levels in the presence of normal uptake offer an indirect proof that the 5HT defect described in the CHS is due to an impaired 5HT storage mechanism. This is supported by the observation that spontaneous release of 5HT was markedly increased in platelets from CH5 mice but was normal in synaptosomes from the same animals. Thus platelets are a reliable model to study 5HT uptake, but not 5HT storage and release in brain synaptosomes.     

ON THE RELATIONSHIP BETWEEN [3H]CHOLINE UPTAKE ACTIVATION AND [3H]ACETYLCHOLINE RELEASE

The depolarization-induced, calcium-dependent release of [³H]ACh from hippocampal synaptosomes was studied in a superfusion system. Release increased, with increasing depolarization. Barium and strontium effectively substituted for calcium during the depolarization, but magnesium inhibited the release. Releasable [³H]ACh is derived from the sodium-dependent component of the [³H]choline uptake which points out the physiologic importance of sodium-dependent choline transport. It is concluded that [³H]ACh release in this system has the same properties as neurotransmitter release in many other systems. Previous studies have shown that treatments which alter the activity of cholinergic neurons in vivo result in parallel changes in sodium-dependent choline uptake in vitro. When synaptosomes were utilized from animals treated to reduce cholinergic activity, there was a reduced release following the reduced uptake. Conversely, when synaptosomes were taken from animals treated to increase sodium-dependent choline uptake, there was an increase in the release. It is concluded that the changes in sodium-dependent choline uptake in vitro consequent to changes in neuronal activity in vivo result in parallel changes in releasable ACh. A comparison was made between the effect of a number of ions and agents on release and their effect on the in vitro, depolarization-induced activation of sodium-dependent choline uptake. Barium and strontium, ions which substitute for calcium in the release process, support the in vitro activation of uptake. Vinblastine and Bay a 1040, compounds which block release, prevented the in vitro activation of sodium-dependent choline uptake. However, magnesium blocked release in a dose-dependent manner, but did not block the activation of uptake in vitro. Rather, magnesium substituted for calcium and supported the activation of uptake in a dose-dependent fashion. It is concluded that acetylcholine release is not necessary for the activation of choline uptake.     

Effect of lithium on dopamine uptake by brain synaptosomes

Lithium chloride exerts two opposite effects on dopamine uptake by synaptosomes isolated from rat caudate nucleus. Added in vitro, it inhibits dopamine uptake; whereas administered chronically in vivo, it enhances dopamine uptake in vitro. Thus, in vitro, 1, 2.5, 5 and 10 meqiv.l-1 of lithium chloride decrease [3H]dopamine uptake by 13, 17, 25 and 31%, respectively. Synaptosomes isolated from rats treated with lithium chloride for 20 days, show a 23% increase in [3H]dopamine uptake with respect to synaptosomes isolated from control rats. It is suggested that chronic lithium treatment stimulates a compensatory mechanism which overcomes its direct inhibitory effect on [3H]dopamine uptake.     

Effect of castration on the high affinity glutamate transporter in rat hypothalamic and cortical synaptosomes

High affinity transport of glutamic acid has been studied in cortical and hypothalamic synaptosomes from castrated male rats and compared to normal controls. For hypothalamic synaptosomes, both initial velocity of uptake and Va (apparent maximal velocity) were found to be about one-third lower in the castrated animals. Kt (glutamate concentration giving Va/2), however, was reduced by only 5%.Initial velocity of uptake in cortical synaptosomes was measured as a function of both sodium and glutamate concentration. Reductions in uptake subsequent to castration were found to be much less for cortical synaptosomes (2–15%) than for hypothalamic synaptosomes. Fit for these data to various models for the sodium dependence of transport resulted in the same minimal best fit model as that found for control animals. Thus castration does not alter the fundamental nature of the mechanism by which carrier, sodium, and glutamate interact in the process of transport. However quantitative changes were found to occur, as reflected in the best fit constants. These constants were used along with the rate equation for the minimal best fit model to calculate certain parameters which were then used to delineate the quantitative changes in the transporter following castration. A neuroregulatory role for glutamate in gonadotropin secretion has been recently proposed; the present study now provides additional information on the relationship between reproductive function and one aspect of glutamatergic synaptic function, namely, the high affinity transport system.     

Inhibition of serotonin uptake in synaptosomes and glia cells by some pharmacological substances

The uptake of serotonin -14 C by glial cells and synaptosomes of the rabbit brain cortex was studied. The Km value of the uptake of serotonin -14 C proved to be equal (0.83 + 0.02 microM) both for synaptosomes and glial cells. Synaptosomes of the rabbit brain cortex take up serotonin -14 C twice as fast as glial cells (uptake rates were compared from protein). Among psychotropic drugs studied the tricyclic antidepressant imipramine and psychostimulant cocaine turned out the most active inhibitors of both synaptosomal and glial uptake of serotonin -14 C. The drugs in 50 microM concentration inhibit the uptake of serotonin -14 C in synaptosomes and glial cells by 90 and 75-80%, respectively.     

Mild chronic stress leads to desensitisation of presynaptic autoreceptors and a long-lasting increase in noradrenaline synthesis in rat cortical synaptosomes

An i.p. injection of normal saline combined with 1 min handling when repeated 14 times results in an increase in noradrenaline synthesis in synaptosomes prepared from the cortex of stressed rats; at 24 h synthesis acceleration is greater than at 48 h after the last stress.The activity of tyrosine hydroxylase solubilised from the hippocampus is the same in the control and the stressed group, when assayed at the optimal pH of 5.8 and with saturating concentration (2 mM) of the cofactor 6 MPH₄. However enzyme from stressed rats shows a relative increase in the activity at pH 7.4 assayed in the presence of 0.2 mM 6 MPH₄. This indicates activation, not induction, of the enzyme. 8-Br-cAMP produced the same increase in noradrenaline synthesis in cortical synaptosomes from control and stressed rats; however 50 mM K⁺ did not increase synthesis rate in stressed rats. Furthermore in synaptosomes from stressed rats neither isoprenaline (which increases noradrenaline synthesis) nor clonidine with 50 mM K⁺ (which leads to a depression of the K⁺-accelerated synthesis) had any effect on synthesis rate. The results suggest that the increased noradrenaline synthesis rate in cortical synaptosomes from stressed rats represents a Ca²⁺-dependent activation of tyrosine hydroxylase resulting from the desensitisation of alpha₂-autoreceptors.     

Evidence for Functional Activity of Up-Regulated Nicotine Binding Sites in Rat Striatal Synaptosomes

A number of studies have found that the chronic administration of nicotine causes an increase in the density of nicotinic binding sites in the brain, but it is not known whether these additional binding sites are functionally active receptors. In this study, the effects of 1-week administration of the potent nicotinic agonist, (+)-anatoxin-a (96 nmol/day via osmotic minipumps), was assessed on [3H]nicotine binding and [3H]dopamine uptake and release in rat striatal synaptosomes. Chronic (+)-anatoxin-a treatment resulted in a 32% increase in the Bmax of [3H]nicotine binding in anatoxin-treated animals compared to control. There was a 43% increase in the activity of 3 microM nicotine to release [3H]dopamine from synaptosomes of anatoxin-treated animals, but the release induced by 20 mM K+ depolarization was unaffected. There was no effect of chronic (+)-anatoxin-a treatment on the uptake of [3H]dopamine. A strong positive correlation (r = 0.64) was found between the density of [3H]nicotine binding sites and the nicotine-induced stimulation of [3H]dopamine release in individual animals. These results indicate that (+)-anatoxin-a, like nicotine, produces an up-regulation of nicotine binding sites following chronic administration, and that these additional sites are functional receptors capable of mediating the release of dopamine from striatal synaptosomes.     

Artificial gravity and functional plasticity of nerve system. L-[14C]-glutamate uptake by nerve terminals from rat cerebellum and cerebral hemispheres under hypergravity stress

We have investigated the effects of altered gravity on the kinetic parameters of glutamate transport activity. We observed no differences in Km values for cerebellum and cerebral hemisphere nerve terminals (synaptosomes) between control rats- 18,2 +/- 7,6 micromoles (cerebellum), 10,7 +/- 2,5 micromoles (cerebral hemispheres) and animals exposed to hypergravity- 23,3 +/- 6,9 micromoles (cerebellum), 6,7 +/- 1,5 micromoles (cerebral hemispheres). The similarity of this parameter for the two studied groups of animals showed that affinity of glutamate transporter to substrate in cerebellum and cerebral hemispheres was not sensitive to hypergravity stress. The maximal velocity of L-[14C]-glutamate uptake (Vmax) reduced for cerebellum synaptosomes from 9,6 +/- 3,9 nmol/min/mg of protein in control group to 7,4 +/- 2,0 nmol/min/mg of protein in animals, exposed to hypergravity stress. For cerebral hemisphere synaptosomes the maximal velocity significantly decreased from 12,5 +/- 3,2 nmol/min/mg of protein to 5,6 +/- 0,9 nmol/min/mg of protein, respectively.     

Rat brain catecholamines in the initial period of acute radiation exposure

Total X-ray irradiation (0.21 C/kg of rats induces an hour later an increase in the dopamine and norepinephrine content in the grey matter by 11 and 60%, respectively. The spontaneous release of dopamine and norepinephrine from the brain synaptosomes of the irradiated rats falls causing a decrease of the initial rate of the process. Potassium chloride depolarization of synaptosome membranes of the control rat brain increases both the maximal and initial rate of the process of neuromediators' release; in irradiated animals only the maximal rate of the process grows, the initial rate of the dopamine release being unchanged and that of norepinephrine increasing but less that in the control. After irradiation maximal rate of the by synaptosomes dopamine uptake is 2.6 times as high, while that of norepinephrine is 4.6 times as low; Km of the highly specific uptake of norepinephrine decreases.     

Evidence of the existence of two different intraneuronal pools from which pharmacological agents can release serotonin

The effect of various drugs on the release of [³H]-serotonin from synaptosomes of reserpine-treated rats was compared with that obtained with synaptosomes of untreated animals.The increase in [³H]-serotonin release induced by d-fenfluramine was virtually abolished by reserpine; the effect of d-norfenfluramine, the main metabolite of fenfluramine, was instead enhanced in synaptosomes of reserpine treated animals. [³H]-serotonin release induced by l-isomers of fenfluramine or norfenfluramine was increased or not affected, respectively, after reserpine treatment.The effects of other drugs, known to activate serotonin mechanisms such as metachlorophenylpiperazine and quipazine, like d-norfenfluramine, were increased by the reserpine treatment.The present data show that [³H]-serotonin can be released by drugs from two pools with different sensitivity to reserpine. The reserpinized synaptosomes could provide useful information on the mechanisms of action of drugs acting on brain serotonin.     

The Effects of Chronic Manganese Chloride Treatment Expressed as Age-Dependent, Transient Changes in Rat Brain Synaptosomal Uptake of Amines

Abstract: As a result of chronic manganese treatment of rats from conception onwards, a decrease was observed in the uptake of dopamine, but not of noradrenaline or serotonin, by synaptosomes isolated from hypothalamus, striatum, and midbrain and in choline uptake by hypothalamic synaptosomes obtained from 70–90-day-old animals. In 100–120-day-old manganese-treated rats the only difference observed was increased choline uptake by striatal synaptosomes. All comparisons were with age-matched controls. These results, which are consistent with views of a dopaminergic and cholinergic involvement in manganese encephalopathy, point out that changes in these systems are observable only at specific times during manganese intoxication.     

Effects of opiates on synaptosomal calmodulin and calcium uptake

Acute opiate administration in vivo increases the level of cytoplasmic calmodulin in isolated rat brain synaptosomes. These synaptosomes do not, however, display decreased K⁺-stimulated⁴⁵Ca uptake in vitro. Opiates affect neither cytoplasmic calmodulin nor Ca uptake after incubation of synaptosomes with the drugs in vitro. In contrast to the interpretation of electrophysiological data, these results suggest that the observed inhibition by opiates of the release of several transmitters may not be mediated by presynaptic opiate receptors that inhibit Ca uptake.     

Amperozide, a putative anti-psychotic drug: uptake inhibition and release of dopamine in vitro in the rat brain

The effects of amperozide (a diphenylbutylpiperazinecarboxamide derivative) on the uptake and release of 3H-dopamine in vitro were investigated. Amperozide inhibited the amphetamine-stimulated release of dopamine from perfused rat striatal tissue in a dose-dependent manner. With 1 and 10 microM amperozide there was significant inhibition of the amphetamine-stimulated release of dopamine, to 44 and 36% of control. In contrast, 10 microM amperozide significantly strengthened the electrically stimulated release of dopamine from perfused striatal slices. Amperozide 1-10 microM had no significant effect on the potassium-stimulated release of dopamine. 10 microM amperozide also slightly increased the basal release of 3H-dopamine from perfused striatal tissue. These effects on various types of release are similar to those reported for uptake inhibitors (Bowyer et al, 1984). The uptake of dopamine in striatal tissue was inhibited by amperozide with IC50 values of 18 microM for uptake in chopped tissue and 1.0 microM for uptake in synaptosomes. Amperozide also inhibited the uptake of serotonin in synaptosomes from frontal cortex, IC50 = 0.32 microM and the uptake of noradrenaline in cortical synaptosomes, IC50 = 0.78 microM. In conclusion, amperozide shows uptake-inhibiting properties in both release and uptake studies done in vitro on the rat. In the in vivo studies, however, amperozide differs from dopamine uptake inhibitors.     

The Effect of Acute Hypoxia on Synaptosomes from Rat Brain

Abstract: Synaptosomes have been isolated from the brains of nonanesthetized and nembutal-anesthetized rats subjected to 30 min hypoxia induced by breathing 7% oxygen in nitrogen. The respiratory rate was depressed in synaptosomes from starved hypoxic animals but was not significantly different from the respective control values in preparations from fed hypoxic animals, anesthetized animals, and hypoxic nonanesthetized animals allowed to recover from the hypoxic episode by 60 min of normoxic conditions. Observations are also reported concerning the levels of various metabolites in the synaptosomes isolated from the brains of the same groups of animals. It is suggested that hypoxia results in damage to the synaptosomal and/or mitochondrial membrane, which modifies substrate oxidation in the mitochondria and decreases availability of reducing equivalents for the respiratory chain. Results obtained on afflicted and recovered animals indicate that synaptosomal preparations provide a useful model for the study of hypoxic damage.