A novel affinity purification of D-1 dopamine receptors from rat striatum

When rat striatal membranes were pretreated with the sulfhydryl (-SH) modifying reagent, N-ethylmaleimide (NEM) in the presence of the D-1-specific agonist, SKF R-38393, the D-1 dopamine receptor was completely protected from NEM-mediated inactivation. The D-1 receptors, solubilized from these membranes with 1% sodium cholate in the presence of phospholipids, bound with high efficiency (greater than 90%) to mercury-agarose columns. The bound receptors were eluted from the affinity column with a -SH reducing agent, beta-mercaptoethanol. Upon removal of beta-mercaptoethanol from the eluted fractions by inclusion chromatography, the receptor was reconstituted into phospholipid vesicles and assayed for ligand binding activity. The affinity purified receptor exhibited saturable and specific binding of the D-1-specific ligand 125I-SCH 23982, with a Kd of 1.6 nM comparable to that measured in intact membranes and solubilized extracts. The binding capacity of these receptors for 125I-SCH 23982 was 11,000 pmol/mg protein, representing greater than an 8000-fold purification over the starting membrane preparation. The purity of the affinity eluted receptors was estimated to be 78%. The purified receptors retained the pharmacological properties of membrane-bound receptors, including the ability to distinguish between active and inactive enantiomers of specific dopaminergic antagonists. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis and silver staining revealed the presence of two major polypeptides of 74 and 54 kDa. These two polypeptides were absent in those affinity eluted fractions which did not display 125I-SCH 23982-binding activity and also were not detected in preparations obtained from membranes which were NEM-treated in the absence of D-1-specific agonist. The molecular weights of these polypeptides were similar to those of membrane-bound D-1 receptors, when labeled with a D-1-specific photo-affinity ligand, 125I-8-hydroxy-3-methyl-1-(4-azidphenyl)-2,3,4,5-tetrahydro-1H-3-b enzazepine. These two polypeptides may represent glycosylated and deglycosylated forms of the D-1 dopamine receptor.     

Age-related changes in glutamate concentration and synaptosomal glutamate uptake in adult rat striatum

It has been suggested that Glutamate (Glu), which has neurotoxic properties and is thought to be the excitatory neurotransmitter release at corticostriatal synapses, might play a role in neurological disorders involving the striatum. To establish normative data which may serve as baseline for evaluating experimental evidence relevant to this proposal, we have studied Glu concentrations and synaptosomal Glu high affinity uptake kinetics in the striatum of male and female rats at various ages from 3 to 19 months. Here we report that all parameters studied (Glu levels, Vmax and Km of uptake) undergo significant changes with advancing age. Striatal Glu concentrations are consistently in the range of 12 mmol/kg wet weight in early adult life (3–6 months) but drop to 10 mmol/kg by 10 months and 9.6 mmol/kg by 19 months (an overall 20% decrease). Concomitantly, significant reductions in Vmax and km of the Glu high affinity transport system occur, suggesting an age-related loss in the number of high affinity Glu transport sites and a compensatory increase in affinity of remaining sites for Glu. Tentatively we propose that degenerative changes in the putatively glutamergic corticostriatal tract, as a normal aspect of aging, is the simplest and most likely explanation for the observed changes. If such changes with normal aging also occur in humans, this must be taken into consideration in the interpretation of studies pertaining to the possible role of Glu in neurological disorders.     

Effects of ammonia on high affinity glutamate uptake and glutamate transporter EAAT3 expression in cultured rat cerebellar granule cells

Increased levels of extracellular glutamate are a consistent feature of hepatic encephalopathy (HE) associated with liver failure and other hyperammonemic pathologies. Reduction of glutamate uptake has been described in ammonia-exposed cultured astrocytes, synaptosomes, and in animal models of hyperammonemia. In the present study, we examine the effects of pathophysiological concentrations of ammonia on D-aspartate (a non-metabolizable analog of glutamate) uptake by cultured rat cerebellar granule neurons. Exposure of these cells to ammonia resulted in time-dependent (24% reduction at 24h and 60% reduction at 5 days, P<0.001) and dose-dependent (21, 37, and 57% reduction at 1, 2.5, and 5mM for 5 days, P<0.01) suppression of D-aspartate uptake. Kinetic analyses revealed significant decreases in the velocity of uptake (V(max)) (37% decrease at 2.5mM NH(4)Cl, P<0.05 and 52% decrease at 5mM NH(4)Cl, P<0.001) as well as significant reductions in K(m) values (25% reduction at 2.5mM NH(4)Cl, P<0.05 and 45% reduction at 5mM NH(4)Cl, P<0.001). Western blotting, on the other hand, showed no significant changes in the neuronal glutamate transporter EAAC1/EAAT3 protein, the only glutamate transporter currently known to be expressed by these cells. In addition, 1H combined with 13C-NMR spectroscopy studies using the stable isotope [1-13C]-glucose demonstrated a significant increase in intracellular glutamate levels derived from the oxidative metabolism of glucose, rather than from the deamidation of exogenous glutamine in cultured granule neurons exposed to ammonia. The present study provides evidence that the effects of ammonia on glutamate uptake are not solely an astrocytic phenomenon and that unlike the astrocytic glutamate transporter counterpart, EAAT3 protein expression in cultured cerebellar granule cells is not down-regulated when exposed to ammonia. Decrease of glutamate uptake in these cellular preparations may afford an additional regulatory mechanism aimed at controlling intracellular levels of glutamate and ultimately the releasable pool of glutamate in neurons.     

Effect of nootropic drugs on the dopamine release and dopamine uptake in structures of the rat striatum

Nootropics increase the overflow of dopamine from rat striatum slices in a concentration dependent manner, but without relation to their clinical effectiveness. The influence of a nootropic drugs and of amphetamine on the stimulus induced dopamine release points to a relationship between nootropic and nooanaleptic activity, on the one hand, and transmitter release, on the other. Dopamine re-uptake is not altered by nootropics like piracetam.     

Changes in the kinetics of dopamine release and uptake have differential effects on the spatial distribution of extracellular dopamine concentration in rat striatum

The objective of this study was to examine whether the limited diffusion distance of dopamine in rat striatum produces spatial heterogeneity in the extracellular dopamine concentration on a dimensional scale of a few micrometers. Such heterogeneity would be significant because it would imply that the concentration of dopamine at a given receptor depends on the receptor's ultrastructural location. Spatially resolved measurements of extracellular dopamine were performed in the striatum of chloral hydrate-anesthetized rats with carbon fiber microdisk electrodes. Dopamine was monitored during electrical stimulation of the nigrostriatal pathway before and after administration of drugs that selectively affect the kinetics of evoked dopamine release and dopamine uptake. The effects of nomifensine (20 mg/kg), L-DOPA (250 mg/kg), and alpha-methyl-p-tyrosine (250 mg/kg) on the amplitude of the stimulation responses were examined. The outcome of these experiments was compared with predictions derived from a mathematical model that combines diffusion with the kinetics of release and uptake. The results demonstrate that the extracellular dopamine concentration is spatially heterogeneous on a micrometer scale and that changing the kinetics of dopamine release and uptake has different effects on this spatial distribution. The impact of these results on brain neurochemistry is considered.     

The uptake of (3H)dopamine by homogenates of rat corpus striatum: effects of cations

The uptake of [³H]dopamine was studied with a synaptosomal preparation of the corpus striatum. The accumulation of dopamine was found to be temperature-dependent and very rapid, but linear over time for at least 5 min. at 37°C with characteristics of saturable kinetics. The optimum concentrations for Na⁺ and K⁺ were 150–160 m$\text{M}$ and 2.5–4.8 m$\text{M}$, respectively, while uptake was progressively inhibited at concentrations of K⁺ greater than 5 m$\text{M}$. Rubidium was capable of substituting for potassium whereas cesium was a much less effective replacement. The uptake of DA was blocked by the antibiotics, valinomycin and gramicidin-D which bind K⁺ or both Na⁺ and K⁺, respectively, and thereby might interfere with the transport of cations across neuronal membranes. Similarly, ouabain which blocks the active transport of Na⁺ markedly antagonized the accumulation of DA into striatal homogenates. In contrast, tetrodotoxin which does not prevent the active transport of Na⁺, had no effect. Uptake appeared not to require Ca⁺⁺ and it was not inhibited by increasing total osmolarity to 400 mos$\text{M}$. In general, the cationic requirements for DA-uptake in striatal tissue and its responses to several inhibition of ionic transport, do not appear to be greatly different from those reported for NE with synaptosomes prepared from whole brain.     

Comparison of dopamine uptake and release in vitro in sheep and rat striatum.

Cocaine inhibits tritium-labeled dopamine ([3H]DA) uptake in rat (IC50 approximately 400 nM) and sheep (IC50 approximately 1 microM) striatum. GBR 12909, a selective DA uptake inhibitor, potently inhibits [3H]DA uptake in rat (IC50 less than 10 nM), but is less effective (only 60% of the uptake is inhibited at a concentration of 10 microM) and less potent (IC50 approximately 300 nM) in sheep. [3H]DA release from slices of rat or sheep striatum is stimulated by potassium (15-50 mM). In the presence of nomifensine (10 microM), cocaine (10 microM) had no effect on potassium-stimulated [3H]DA release in either species. [3H]DA release is increased by N-methyl-D-aspartate (NMDA) (10-1000 microM) in rat striatum but NMDA did not stimulate [3H]DA release in sheep striatum. These findings suggest that NMDA receptors either are absent from or do not regulate release of preloaded [3H]DA in sheep striatum.     

Solubilization of the D-1 dopamine receptor from rat striatum

The D-1 dopamine receptor was extracted from rat striatal membranes with 0.7% sodium cholate and 1 M NaCl. Pretreatment of the membranes with a D-1 specific agonist, inclusion of crude phospholipids in the solubilization buffer, and subsequent removal of the detergent led to a maximal extraction of 48% of the receptor binding sites. The D-1 antagonist, [125I]SCH 23982, bound to single class of sites with a Kd of 1.8 nM and a Bmax of 1.65 pmol/mg protein. The solubilized receptors retained the ability to discriminate between active and inactive enantiomers of agonists and antagonists selective for the D-1 receptor.     

The effects of various cognition-enhancing drugs on in vitro rat hippocampal synaptosomal sodium dependent high affinity choline uptake

The purpose of the present study was to compare the effect of seven drugs, that have been reported to enhance cognitive functions, on rat hippocampal cholinergic neuronal activity. The latter was assessed by measuring the effects of the drugs on in vitro sodium-dependent high affinity choline uptake (HACU) into rat hippocampal synaptosomes 30 minutes after their in vivo administration. 3,4-Diaminopyridine (0.1 mg/kg IP), like pramiracetam (44 and 88 mg/kg IP), increased HACU with higher or lower doses being ineffective. Centrophenoxine (100 mg/kg IP) decreased HACU. Piracetam (100 and 500 mg/kg IP), aniracetam (10-200 mg/kg PO), lysine vasopressin (0.005-0.05 mg/kg IM) and 4-aminopyridine (0.01-3.0 mg/kg IP) were ineffective. The results indicate that 3,4-diaminopyridine and centrophenoxine, like pramiracetam may be increasing cognitive function in part by affecting hippocampal cholinergic neuronal activity. In addition, the findings indicate the usefulness of using in vitro HACU as a biochemical measurement to assess the potential effect of cognitive-enhancing drugs on cholinergic neuronal activity in vivo.     

Different effects of typical and atypical neuroleptics on K+-stimulated dopamine release from isolated rat striatum]

Effects of haloperidol (10(-7)-alpha 10(-5) M), trifluoperazine, metoclopramide, tiapride, sulpiride, thioridazine, clozapine remoxipride, raclopride, cis- and trans-isomers of carbidine, SCH 23390 (all at the 10(-6) M) on the K(+)-stimulated (28 mM) dopamine (DA) release from isolated rat striatum were studied. Haloperidol at the concentration of 10(-7) and 10(-6) M failed to affect, while at 10(-5) M the drug decreased the stimulated striatal DA release. Trifluoperazine, metoclopramide and tiapride were shown not to modify this process. Sulpiride, thioridazine, clozapine, remoxipride, raclopride, isomers of carbidine were found to increase significantly the stimulated striatal DA release. SCH 23390 failed to affect K(+)-stimulated release of DA in the striatum and also did not change K(+)-stimulated release enhancement produced by raclopride. It is suggested that the mechanism underlying observed effects of the drugs may contribute to pharmacological profile of atypical neuroleptics.     

Chronic treatment with a dopamine uptake blocker changes dopamine and acetylcholine but not glutamate and GABA concentrations in prefrontal cortex, striatum and nucleus accumbens of the awake rat

The present study was aimed to investigate the effects of a chronic treatment with the dopamine uptake blocker nomifensine on the in vivo extracellular concentrations of dopamine, acetylcholine, glutamate and GABA in the prefrontal cortex, striatum and nucleus accumbens. Male Wistar rats received intraperitoneal (i.p.) daily injections of nomifensine (10 mg/kg) or saline for 22 days. Microdialysis experiments were performed on days 1, 8, 15 and 22 of treatment to evaluate the effects of the injection of nomifensine or saline. Motor activity of the animals was monitored during microdialysis experiments. Injections of nomifensine increased extracellular concentration of dopamine in striatum and nucleus accumbens, but not in prefrontal cortex. Acetylcholine concentrations in striatum but not in nucleus accumbens were increased by nomifensine on days 15 and 22 of treatment. In prefrontal cortex, nomifensine increased acetylcholine levels without differences among days. No changes were found on glutamate and GABA concentrations in the three areas studied. Injections of nomifensine also increased spontaneous motor activity and stereotyped behaviour without differences among days. These results show that systemic chronic treatment with a dopamine uptake blocker produces differential effects on extracellular concentrations of dopamine and acetylcholine, but not glutamate and GABA, in different areas of the brain.     

神经系统内高亲和谷氨酸摄取及其调节影响因素

神经系统内高亲和谷氨酸１（Ｇｌｕ）摄取是Ｎａ＾＋依赖性的,由Ｇｌｕ能神经末梢及胶质细胞膜上的Ｇｌｕ转运蛋白介导。已克隆得到四种Ｇｌｕ转运蛋白,分别为ＧＬＡＳＴ１、ＧＬＵＴ１、ＥＡＡＣ１及ＥＡＡＴ４。它们的所在部位、分布及药理学性质都有自己的特点。花生四烯酸、一氧化氮、氧自由基、蛋白激酶、细胞因子及生长因子等多种因素能调节或影响高亲和Ｇｌｕ摄取。很显然这些因素的调节或影响效应具有一定生理及病理生理意     

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.     

Regulation of high affinity choline uptake

High affinity uptake of choline, the rate-limiting, regulatory step for the synthesis of acetylcholine (ACh), was found to be regulated via presynaptic auto- and heteroreceptors. The transport rate was reduced by a muscarinic agonist and neuropeptides, but was significantly enhanced by octopamine. Intracellular messengers, including cyclic nucleotides, appear to modulate the transport activity, apparently by activating specific protein kinases.     

Long-term effects of prenatal stress on dopamine and glutamate receptors in adult rat brain

Prenatal stress greatly influences the ability of an individual to manage stressful events in adulthood. Such vulnerability may result from abnormalities in the development and integration of forebrain dopaminergic and glutamatergic projections during the prenatal period. In this study, we assessed the effects of prenatal stress on the expression of selective dopamine and glutamate receptor subtypes in the adult offsprings of rats subjected to repeated restraint stress during the last week of pregnancy. Dopamine D₂-like receptors increased in dorsal frontal cortex (DFC), medial prefrontal cortex (MPC), hippocampal CA₁ region and core region of nucleus accumbens (NAc) of prenatally stressed rats compared to control subjects. Glutamate NMDA receptors increased in MPC, DFC, hippocampal CA₁, medial caudate-putamen, as well as in shell and core regions of NAc. Group III metabotropic glutamate receptors increased in MPC and DFC of prenatally stressed rats, but remained unchanged in all other regions examined. These results indicate that stress suffered during the gestational period has long lasting effects that extend into the adulthood of prenatally stressed offsprings. Changes in dopamine and glutamate receptor subtype levels in different forebrain regions of adult rats suggest that the development and formation of the corticostriatal and corticolimbic pathways may be permanently altered as a result of stress suffered prenatally. Maldevelopment of these pathways may provide a neurobiological substrate for the development of schizophrenia and other idiopathic psychotic disorders.     

Affinity chromatography of the D1 dopamine receptor from rat corpus striatum

The D1 dopamine receptor from rat corpus striatum has been purified 200-250-fold by using a newly developed biospecific affinity chromatography matrix based on a derivative of the D1 selective antagonist SCH 23390. This compound, (RS)-5-(4-aminophenyl)-8-chloro-2,3,4,5-tetrahydro-3-methyl-1H-3-benz azepin-7-o l (SCH 39111), possesses high affinity for the D1 receptor and, when immobilized on Sepharose 6B through an extended spacer arm, was able to adsorb digitonin-solubilized D1 receptors. The interaction between the solubilized receptor and the affinity matrix was biospecific. Adsorption of receptor activity could be blocked in a stereoselective fashion [SCH 23390 greater than SCH 23388; (+)-butaclamol greater than (-)-butaclamol]. The elution of [3H]SCH 23390 activity from the gel demonstrated similar stereoselectivity for antagonist ligands. Agonists eluted receptor activity with a rank order of potency consistent with that of a D1 receptor [apomorphine greater than dopamine greater than (-)-epinephrine much greater than LY 171555 greater than serotonin]. SCH 39111-Sepharose absorbed 75-85% of the soluble receptor activity, and after the gel was washed extensively, 35-55% of the absorbed receptor activity could be eluted with 100 microM (+)-butaclamol with specific activities ranging from 250 to 450 pmol/mg of protein. The affinity-purified receptor retains the ligand binding characteristics of a D1 dopamine receptor. This affinity chromatography procedure should prove valuable in the isolation and molecular characterization of the D1 dopamine receptor.     

Interactions of glutamate and dopamine in a computational model of the striatum

A network model of simplified striatal principal neurons with mutual inhibition was used to investigate possible interactions between cortical glutamatergic and nigral dopaminergic afferents in the neostriatum. Glutamatergic and dopaminergic inputs were represented by an excitatory synaptic conductance and a slow membrane potassium conductance, respectively. Neuronal activity in the model was characterized by episodes of increased action potential firing rates of variable duration and frequency. Autocorrelation histograms constructed from the action potential activity of striatal model neurons showed that reducing peak excitatory conductance had the effect of increasing interspike intervals. On the other hand, the maximum value of the dopamine-sensitive potassium conductance was inversely related to the duration of firing episodes and the maximal firing rates. A smaller potassium conductance restored normal firing rates in the most active neurons at the expense of a larger proportion of neurons showing reduced activity. Thus, a homogeneous network with mutual inhibition can produce equally complex dynamics as have been proposed to occur in a striatal network with two neuron populations that are oppositely regulated by dopamine. Even without mutual inhibition it appears that increased dopamine concentrations could partially compensate for the effects of reduced glutamatergic input in individual neurons.     

Developmental expression and activity of high affinity glutamate transporters in rat cortical primary cultures

The expression and activity of glutamate transporters (EAAC1, GLAST and GLT1) were examined during the development of cortical neuron-enriched cultures. Protein content and mitochondrial respiration both increased during the first 7 days, later stabilized and decreased from DIV14. Glutamate transport and extracellular concentration were relatively constant from DIV3 to 18. The kinetic parameters of glutamate transport were at DIV7:K_m=19±3 μM and V_max=1068±83 pmol/mg protein/min and at DIV14: K_m=40.8±9.3 μM and V_max=1060±235 pmol/mg protein/min. The shift in K_m towards higher values suggest a more important participation of GLAST after DIV14. At DIV7 and 14, glutamate transport was poorly sensitive to dihydrokaïnate (DHK) suggesting a weak participation of GLT1 in glutamate transport. Western blot experiments and immunocytochemistry showed that EAAC1 was expressed by neurons whatever the stage of the culture. GLAST was found in astrocytes as soon as DIV3 and labeling increased during the development of the culture. There was little neuronal GLT1 immunoreactivity at DIV7, only detected by immunocytochemistry. From DIV10 to 18, an increasing astrocytic expression of GLT1 was observed, also detected by Western blotting. These results show that: (1) glutamate uptake remains stable all along the development of the cultures although the pattern of expression of the different transporters is changing, suggesting that glutamate transport is highly regulated; (2) neuronal EAAC1 may play a critical role during the early stages of the culture when it is expressed alone; and (3) the developmental expression pattern of glutamate transporters in cortical neuron-enriched cultures is quite similar to that observed in vivo during early postnatal development.     

Inhibitory effects of calcium channel blockers on thyroid hormone uptake in neonatal rat cardiomyocytes

The effects of the Ca2+ channel blockers verapamil, nifedipine, and diltiazem on triiodothyronine (T3) and thyroxine (T4) uptake were tested in cultured cardiomyocytes from 2-day-old rats. Experiments were performed at 37 degrees C in medium with 0.5% BSA for [125I]T3 (100 pM) or 0.1% BSA for [125I]T4 (350 pM). The 15-min uptake of [125I]T3 was 0.124 +/- 0.013 fmol/pM free T3 (n = 6); [125I]T4 uptake was 0.032 +/- 0.003 fmol/pM free T4 (n = 12). Neither T3 nor T4 uptake was affected by 1% DMSO (diluent for nifedipine and verapamil). Uptake of [125I]T3 but not of [125I]T4 was dose dependently reduced by incubation with 1-100 microM verapamil (49-87%, P < 0.05) or nifedipine (53-81%, P < 0.05). The relative decline in [125I]T3 uptake after 4 h of incubation with 10 microM verapamil or nifedipine was less than after 15 min or 1 h, indicating that the major inhibitory effect of the Ca2+ channel blockers occurred at the level of the plasma membrane. The reduction of nuclear [125I]T3 binding by 10 microM verapamil or nifedipine was proportional to the reduction of cellular [125I]T3 uptake. Diltiazem (1-100 microM) had no dose-dependent effect on [125I]T3 uptake but reduced [125I]T4 uptake by 45% (P < 0.05) at each concentration tested. Neither the presence of 20 mM K+ nor the presence of low Ca2+ in the medium affected [125I]T3 uptake. In conclusion, the inhibitory effects of Ca2+ channel blockers on T3 uptake in cardiomyocytes are not secondary to their effects on Ca2+ influx but, rather, reflect interference with the putative T3 carrier in the plasma membrane.