Increased Nitric Oxide Synthase Activities and l-[3H]Arginine Uptake in Brain Following Portacaval Anastomosis

Abstract: Glutamatergic synaptic dysfunction has been proposed as a causal factor in portal-systemic encephalopathy. Increased in vitro and in vivo glutamate release and decreased glutamate binding to NMDA receptors were previously reported in the brains of portacaval-shunted rats. Such changes could lead to alterations in the second messenger systems coupled to glutamate receptors. As NMDA receptors have been shown to act via the nitric oxide/cyclic GMP second messenger system, we studied the activities of constitutive nitric oxide synthase (NOS), in the brains of rats following portacaval shunting. Results demonstrate that NOS activities are significantly increased in cerebellum (by 54%, p < 0.01), cerebral cortex (by 65%, p < 0.01), hippocampus (by 88%, p < 0.01), and striatum (by 64%, p < 0.01) of shunted rats compared with sham-operated controls. As l -arginine transport is a prerequisite for nitric oxide production, we also studied l -[³H]arginine transport into cerebellar and cerebral cortical synaptosomes prepared from the brains of portacaval-shunted and sham-operated rats. l -[³H]Arginine uptake was significantly increased (by ∼50%, p < 0.01) in both cerebellum and cortex. Increased NOS activities of neuronal and/or astrocytic origin and the resultant increased production of nitric oxide in brain could be the consequence of increased NMDA receptor activation following portacaval shunting. Furthermore, increased nitric oxide production could contribute to the increased cerebral blood flow consistently observed following portacaval shunting.     

Kinetics, Pharmacology, and Autoradiographic Distribution of l-[3H]Nitroarginine Binding Sites in Rat Cerebellum

Abstract: The kinetics and pharmacology of N ^G-nitro- l -[2,3,4,5-³H]arginine ( l -[³H]NOARG) binding to rat cerebellum were investigated using in vitro radioligand binding. Specific l -[³H]NOARG binding in cerebellum was of nanomolar affinity, reversible, saturable, and best fit to a single-site model. Specific binding was Ca²⁺ dependent and sensitive to pH (with an optimum of 5.5–7.0). Added calmodulin (1.5–40 µg/ml) had no influence on specific l -[³H]NOARG binding. However, the calmodulin antagonists W-5, W-13, and calmidazolium inhibited l -[³H]NOARG binding with IC₅₀ values in the micromolar range, and calmodulin (10 µg/ml) competitively reversed this inhibition. Nitric oxide synthase (NOS) inhibitors ( N ^G-nitro- l -arginine methyl ester and N ^G-monomethyl- l -arginine acetate) and l -arginine displaced l -[³H]NOARG binding with IC₅₀ values in the nanomolar range, whereas d -arginine and basic amino acids ( l -lysine and l -histidine) displaced l -[³H]NOARG binding with IC₅₀ values in the millimolar range. A comparison of the NOS functional assay with l -[³H]NOARG binding in rat cerebellum showed similar profiles of Ca²⁺ dependency and inhibitory kinetics. Quantitative autoradiographic distribution of l -[³H]NOARG binding sites was significantly higher in the molecular layer than in the granular layer of cerebellum. These studies confirm the potential use of l -[³H]NOARG binding to study the regional distribution and functional properties of NOS.     

THE EFFECT OF PHOSPHOLIPASE C, PHOSPHOLIPASE A2 AND NEURAMINIDASE ON THE UPTAKE OF [3H]NOREPINEPHRINE AND [3H]SEROTONIN

Abstract— The uptake of [³H]norepinephrine ([³H]NE) and [³H]serotonin ([³H]5-HT) by rat brain synaptosomes is reduced as a result of pretreatment of the synaptosomes with phospholipase C (EC 3.1.4.3) or phospholipase A₂ (EC 3.1.1.4). This effect is not due to inhibition of the Na⁺-K⁺-ATPase but rather is caused by hydrolysis of neuronal membrane phospholipids, mainly phosphatidylcholine, which seem to be important to the uptake.     

Phosphatidylserine Enhancement of [3H]γ-Aminobutyric Acid Uptake by Rat Whole Brain Synaptosomes

Abstract: [³H] γ -Aminobutyric acid ([³H]GABA) binding to purified lipids was examined in an organic solvent-aqueous partition system. In addition, the [³H]GABA binding capacity in the partition system was compared with the capacity of lipids to alter sodium-dependent [³H]GABA uptake into synaptosomes isolated from rat whole brains. [³H]GABA was found to bind to all of the lipids studied in the organic solvent-aqueous partition system [phosphatidic acid (PA), phosphatidylethanolamine (PE), phosphatidylinositol (PI), phosphatidylserine (PS), gangliosides, and sulfatide], although PS exhibited the greatest binding capacity. [³H]GABA uptake into synaptosomes was enhanced by PS (48.0%) but was not altered by any other lipid. PS enhancement of [³H]GABA uptake required the presence of sodium and was blocked by nipecotic acid (10 μ m ). These results suggest that PS may play a role in the sodium-dependent GABA reuptake process in the presynaptic nerve end.     

l-[3H]Nitroarginine and l-[3H]Arginine Uptake into Rat Cerebellar Synaptosomes: Kinetics and Pharmacology

Abstract: Characteristics of the transport of the nitric oxide synthase substrate l -arginine and its inhibitor, N ^G-nitro- l -arginine ( l -NOARG), into rat cerebellar synaptosomes were studied. Uptake of both l -arginine and l -NOARG was linear with increasing amount of protein (up to 40 µg) and time of incubation (up to 5 min) at 37°C. Uptake of both compounds reached a steady state by 20 min. Maximal uptake of l -NOARG (650 pmol/mg of protein) was three to four times higher than that of l -arginine (170 pmol/mg of protein). l -NOARG uptake showed biphasic kinetics ( K _{m 1} = 0.72 m M , V _{max 1} = 0.98 nmol/min/mg of protein; K _{m 2} = 2.57 m M , V _{max 2} = 16.25 nmol/min/mg of protein). l -Arginine uptake was monophasic with a K _m of 106 µ M and a V _max of 0.33 nmol/min/mg of protein. l -NOARG uptake was selectively inhibited by l -NOARG, N ^G-nitro- l -arginine methyl ester, and branched-chain and aromatic amino acids. l -Alanine and l -serine also inhibited l -NOARG uptake but with less potency. Uptake of l -arginine was selectively inhibited by N ^G-monomethyl- l -arginine acetate and basic amino acids. These studies suggest that in rat cerebellar synaptosomes, l -NOARG is transported by the neutral amino acid carrier systems T and L with high affinity, whereas l -arginine is transported by the basic amino acid carrier system y⁺ with high affinity. These data indicate that the concentration of competing amino acids is an important factor in determining the rates of uptake of l -NOARG and l -arginine into synaptosomes and, in this way, may control the activity of nitric oxide synthase.     

Ca2+-Dependent Enhancement of [3H]Dopamine Uptake in Rat Striatum: Possible Involvement of Calmodulin-Dependent Kinases

Abstract: We studied effects of Ca²⁺ in the incubation medium on [³H]dopamine ([³H]DA) uptake by rat striatal synaptosomes. Both the duration of the preincubation period with Ca²⁺ (0–30 min) and Ca²⁺ concentration (0–10 m M ) in Krebs-Ringer medium affected [³H]DA uptake by the synaptosomes. The increase was maximal at a concentration of 1 m M Ca²⁺ after a 10-min preincubation (2.4 times larger than the uptake measured without preincubation), which reflected an increase in V _max of the [³H]DA uptake process. On the other hand, [³H]DA uptake decreased rapidly after addition of ionomycin in the presence of 1 m M Ca²⁺. The Ca²⁺-dependent enhancement of the uptake was still maintained after washing synaptosomes with Ca²⁺-free medium following preincubation with 1 m M Ca²⁺. Protein kinase C inhibitors did not affect apparently Ca²⁺-dependent enhancement of the uptake, whereas 1-[ N,O -bis(1,5-isoquinolinesulfonyl)- N -methyl- l -tyrosyl]-4-phenylpiperazine (KN-62; a Ca²⁺/calmodulin-dependent kinase II inhibitor) and wortmannin (a myosin light chain kinase inhibitor) significantly reduced it. Inhibitory effects of KN-62 and wortmannin appeared to be additive. N -(6-Aminohexyl)-5-chloro-1-naphthalenesulfonamide hydrochloride (W-7; a calmodulin antagonist) also remarkably inhibited the enhancement. These results suggest that Ca²⁺-dependent enhancement of [³H]DA uptake is mediated by activation of calmodulin-dependent protein kinases.     

Adenosine A2a Receptor-Mediated Modulation of Striatal [3H]GABA and [3H]Acetylcholine Release

Abstract: The ability of adenosine agonists to modulate K⁺-evoked 4D†-[³H]aminobutyric acid ([³H]GABA) and acetylcholine (ACh) release from rat striatal synaptosomes was investigated. The A_2a receptor-selective agonist CGS 21680 inhibited Ca²⁺-dependent [³H]GABA release evoked by 15 m M KCI with a maximal inhibition of 29 ± 4% (IC₅₀ of ∼4 ± 10 ⁻¹² M ). The relative order of potency of three agonists was CGS 21680 ± 5'- N -ethylcarboxamidoadenosine > R-phenylisopropyladenosine (R-PIA), with the inhibition being blocked by A_2a receptor-selective antagonists (CP 66,713 and CGS 15943A) but not by the A₁-selective antagonist 8-cyclopentyl-1,3-dipropylxanthine (DPCPX). When release of [³H]GABA was evoked by 30 mM KCI, no significant inhibition was observed. In contrast, CGS 21680 stimulated the release of [³H]ACh evoked by 30 m M KCI, with a maximal stimulation of 26 ± 5% (IC₅₀ of ∼10⁻¹¹ M ). This effect was blocked by CP 66,713 but not by DPCPX. The A₁ agonist R -PIA inhibited [³H]ACh release, an effect blocked by DPCPX. It is concluded that adenosine A_2a receptors are present on both GABAergic and cholinergic striatal nerve terminals where they inhibit and stimulate transmitter release, respectively. Key Words : GABA—Acetylcholine—Adenosine receptors—Striatum.     

Comparison of the Kinetics of [3H]Diazepam and [3H]Flunitrazepam Binding to Cortical Synaptosomal Membranes

Abstract: [³H]Diazepam and [³H]flunitrazepam ([³H]FNP) binding to washed and frozen synaptosomal membranes from rat cerebral cortex were compared. In Tris-citrate buffer, γ -aminobutyric acid (GABA) and NaCl both increased [³H]diazepam binding more than [³H]FNP binding. GABA and pentobarbital both enhanced this effect of NaCl. Because of the extremely rapid dissociation of [³H]diazepam in the absence of NaCl and GABA, the B_max (maximal binding capacity) was smaller by the filtration assay than by the centrifugation assay. [³H]FNP, which dissociates more slowly, had the same B_max in both assays. [³H]Diazepam association had two components, and was faster than [³H]FNP association. [³H]Diazepam dissociation, which also had two components, was faster than that of [³H]FNP, and also had a greater fraction of rapidly dissociating species. [³H]FNP dissociation was similar when initiated by diazepam, flunitrazepam, clonazepam, or Ro15-1788, which is a benzodiazepine antagonist. [³H]Diazepam dissociation with Ro15-1788, flunitrazepam, or clonazepam was slower than with diazepam. GABA and NaCl, but not pentobarbital, increased the percentage of slowly dissociating species. This effect of NaCl was potentiated by GABA and pentobarbital. The results support the cyclic model of benzodiazepine receptors existing in two interconvertible conformations, and suggest that, distinct from their binding affinity, some ligands (like flunitrazepam) are better than others (like diazepam) in inducing the conversion of the receptor to the higher-affinity state.     

Comparison of (R)-[3H] Tomoxetine and (R/S)-[3H] Nisoxetine Binding in Rat Brain

Abstract: ( R )-[³H]Tomoxetine is a radioligand that binds to the norepinephrine (NE) uptake site with high affinity but also binds to a second, lower-affinity site. The goal of the present study was to identify the nature of this low-affinity site by comparing the binding properties of ( R )-[³H]tomoxetine with those of ( R/S )-[³H]nisoxetine, a highly selective ligand for the NE uptake site. In homogenate binding studies, both radioligands bound to the NE uptake site with high affinity, whereas ( R )-[³H]tomoxetine also bound to a second, lower-affinity site. The autoradiographic distribution of binding sites for both radioligands is consistent with the known distribution of NE-containing neurons. However, low levels of ( R )-[³H]-tomoxetine binding were seen in the caudate-putamen, globus pallidus, olfactory tubercle, and zona reticulata of the substantia nigra, where ( R/S )-[³H]nisoxetine binding was almost absent. In homogenates of the caudate-putamen, the NE uptake inhibitors desipramine and ( R )-nisoxetine and the serotonin (5-HT) uptake inhibitor citalopram produced biphasic displacement curves. Autoradiographic studies using 10 n M ( R )-nisoxetine to mask the binding of ( R )-[³H]tomoxetine to the NE uptake site produced autoradiograms that were similar to those produced by [³H]citalopram. Therefore, ( R )-[³H]tomoxetine binds to the NE uptake site with high affinity and the 5-HT uptake site with somewhat lower affinity.     

Desensitization of Nicotine-Stimulated [3H]Dopamine Release from Mouse Striatal Synaptosomes

Potential desensitization of brain nicotinic receptors was studied using a [³H]dopamine release assay. Nicotine-stimulated [³H]dopamine release from mouse striatal synaptosomes was concentration-dependent with an EC₅₀ of 0.33 ± 0.13 μ M and a Hill coefficient of 1.44 ± 0.18. Desensitization by activating concentrations of nicotine had a similar EC₅₀ and a half-time of 35 s. Concentrations of nicotine that evoked little release also induced a concentration-dependent desensitization (EC₅₀=6.9 plusmn; 3.6 n M , t_1/2= 1.6-2.0 min, n _H=1.02 ± 0.01). Both types of desensitization produced a maximum 75% decrease in [³H]dopamine release. Recovery from desensitization after exposure to low or activating concentrations of nicotine was time-dependent with half-times of 6.1 min and 12.4 min, respectively. Constants determined for binding of [³H]nicotine to striatal membrane at 22°C included a K _Dof 3.7 ± 0.5 n M , B_max of 67.5 ± 2.2 fmol/mg, and Hill coefficient of 1.07 ± 0.06. Association of nicotine with membrane binding sites was biphasic with half-times of 9 s and 1.8 min. The fast rate process contributed 37% of the total reaction. Dissociation was a uniphasic process with a half-time of 1.6 min. Comparison of constants determined by the release and binding assays indicated that the [³H]-nicotine binding site could be the presynaptic receptor involved in [³H]dopamine release in mouse striatal synaptosomes.     

Effects of Chronic Nicotine Treatment on the Accumulation of [3H]Tetraphenylphosphonium by Cerebral Cortical Synaptosomes

Abstract: Chronic exposure of rats to nicotine increases the number of [³H]nicotine binding sites in the brain; however, it is not clear whether nicotinic cholinergic receptor function is altered as well. In this study, we have used [³H]tetraphenylphosphonium as a probe of synaptosomal membrane potential to investigate whether exposure to nicotine in vivo alters the ability of cerebral cortical synaptosomes to maintain a potential difference and to depolarize in response to in vitro nicotine. Treatment of rats for 14 days with 0.475 mg of nicotine base/day via subcutaneously implanted minipumps resulted in a decrease in the synaptosomal accumulation of [³H]tetraphenylphosphonium in physiological buffer, corresponding to a decrease in estimated membrane potential from –55 mV to –50 mV. The onset of the decrease in membrane potential occurred after 7 days of in vivo nicotine treatment and was significantly correlated with an increase in [³H]nicotine binding to cerebral cortical synaptosomal (P₂) membranes. Nicotine, at in vitro concentrations of 3–1,000 μ M , decreased [³H]tetraphenylphosphonium accumulation in cerebral cortical synaptosomes from control animals. When compared to accumulation in buffer alone, in vitro nicotine and other nicotinic agonists did not significantly decrease [³H]tetraphenylphosphonium accumulation in cerebral cortical synaptosomes prepared from rats treated with nicotine in vivo. These studies provide evidence that chronic treatment with nicotine results in an average lower membrane potential in cerebral cortical synaptosomes and in functional down-regulation of the depolarization response to nicotinic cholinergic receptor stimulation.     

EFFECTS OF AMINO-OXYACETIC ACID ON [3H]GABA UPTAKE BY RAT BRAIN SLICES

Abstract— The effect of amino-oxyacetic acid on the uptake of [³H]GABA by rat brain slices was studied. When added simultaneously with [³H]GABA, amino-oxyacetic acid had no significant effect on [³H]GABA uptake. However, preincubation of brain slices with amino-oxyacetic acid prior to addition of [³H]GABA produced inhibition of uptake, which increased with longer duration of preincubation. The inhibitory effect of amino-oxyacetic acid was maximal at 2 mM concentration and concentrations sufficient to inhibit significantly GABA:glutamate transaminase (10^--⁶ M) had no effect on [³H]GABA uptake. D-Cycloserine and β-hydrazino-propionic acid also inhibited [³H]GABA uptake, but the amounts required were considerably in excess of those needed to inhibit GABA:glutamate transaminase. 4-Deoxypyridoxine inhibited [³H]GABA uptake, whether given in vivo or in vitro , and the inhibitory effect of amino-oxyacetic acid was reversed with pyridoxine. GABA transport appears to be dependent on pyridoxal phosphate and interference with this function of the vitamin is suggested as the basis for the inhibitory effect of amino-oxyacetic acid on [³H]GABA uptake.     

Melatonin Effect on [3H]Glutamate Uptake and Release in the Golden Hamster Retina

Abstract: The effect of melatonin on [³H]glutamate uptake and release in the golden hamster retina was studied. In retinas excised in the middle of the dark phase, i.e., at 2400 h, melatonin (0.1 and 10 n M ) significantly increased [³H]glutamate uptake, and this effect persisted in a Ca²⁺-free medium. On the other hand, melatonin significantly increased [³H]glutamate release in retinas excised at 2400 h, but this effect was Ca²⁺ sensitive. Melatonin significantly increased ⁴⁵Ca²⁺ uptake by a crude synaptosomal fraction from retinas of hamsters killed at 2400 h. In retinas excised at 1200 h, melatonin had no effect on [³H]glutamate uptake, [³H]glutamate release, or ⁴⁵Ca²⁺ uptake at any concentration tested. Cyclic GMP analogues, i.e., 8-bromoguanosine 3',5'-cyclic monophosphate and 2'- O -dibutyrylguanosine 3',5'-cyclic monophosphate, significantly increased [³H]glutamate uptake, [³H]glutamate release, and ⁴⁵Ca²⁺ uptake by tissue removed at 1200 and 2400 h, suggesting that the effects of melatonin could correlate with a previously described effect of melatonin on cyclic GMP levels in the golden hamster retina. Taking into account the key role of glutamate in visual mechanisms, the results suggest the participation of melatonin in retinal physiology.     

SUBCELLULAR DISTRIBUTION OF ENDOGENOUS AND [3H] γ-AMINOBUTYRIC ACID IN RAT CEREBRAL CORTEX

Abstract— Slices of rat cerebral cortex were labelled by incubation with [³H]γ-aminobutyric acid (GABA) and homogenized in isotonic sucrose. The subcellular distributions of endogenous GAB A, [³H]GABA and glutamate decarboxylase (GAD) were studied by density gradient centrifugation. The subcellular distributions of the labelled and endogenous amino acid were remarkably similar, indicating that [³H]GABA is taken up into the endogenous GABA pool. About 40 per cent of both endogenous and [³H]GABA were recovered in particles which were tentatively identified as synaptosomes from their equilibrium density and sensitivity to osmotic shock. In slices labelled with [³H]GABA and [¹⁴C]α-aminoisobutyric (AIB) acid, significantly more [³H]GABA was recovered in paniculate fractions than [¹⁴C]AIB. About 80 per cent of the enzyme GAD was also recovered in the same particle fractions which contained [³H]GABA and endogenous GABA. Evidence is presented which suggests that a loss of particle-bound GABA occurs during subcellular fractionation procedures.     

[1251]2α-BUNGAROTOXIN AND [3H]QUINUCLIDINYLBENZILATE BINDING IN CENTRAL NERVOUS SYSTEMS OF DIFFERENT SPECIES

Abstract— [¹²⁵I]Diiodo α-bungarotoxin ([¹²⁵I]₂BuTx) and [³H]quinuclidinylbenzilate ([³H]QNB) binding sites were measured in post-nuclear membrane fractions prepared from whole brains or brain regions of several species. Species studied included Drosophila melanogaster (fruit fly), Torpedo californiea (electric ray), Carassius auratus (goldfish), Ram pipiens (grass frog), Kana cutesheiana (bullfrog), Rattus norvegicus (rat, Sprague-Dawley), Mus muscalus (mouse, Swiss random, C58/J, LG/J), Oryctolagus cuniculus (rabbit, New Zealand Whitc), and Bos (cow). Acetyl-CoA: choline O -acetyltransferase (EC 2.3.1.6) levels were also determined in the post nuclear supernatants and correlated with the number of binding sites.
All species and regions except Drosophila had 16–150 fold more [³H]QNB binding sites than [¹²⁵I]₂BuTx binding sites. Brain regions with the highest levels of [¹²⁵I]₂BuTx binding were Drosophila heads (300 fmol/mg), goldfish optic tectum (80fmol/mg), and rat and mouse hippocampus (3040 fmol/mg). The highest levels of [³H]QNB binding were seen in rat and mouse caudate (1.3–1.6 pmol/mg). Lowest levels of [³H]QNB and [¹²⁵I]₂BuTx binding were seen in cerebellum. The utility of [¹²⁵I]₂BuTx and [³H]QNB binding as quantitative measures of nicotinic and muscarinic acetylcholine receptors in CNS is discussed.     

THE SUBCELLULAR DISTRIBUTION OF [14C]GABA AND [3H]DOPAMINE IN THE RETINA

Abstract— Rabbit retinae were homogenized in isotonic sucrose and subjected to differential and density gradient centrifugation. Preliminary electron microscopic examination of some of the fractions indicated that in addition to the subcellular particles usually observed in brain homogenates, the photoreceptor cells gave rise to several characteristic fragments. These included fragmented outer limbs, aggregations of mitochondria from the inner segments, and photoreceptor terminals. Unlike the synaptosomes formed from the conventional type of synapses in the retina, these photoreceptor terminals appeared to sediment mainly in the low speed crude nuclear pellet (P1).
Retinae were incubated with low concentrations of [¹⁴C]GABA and/or [³H]dopamine prior to subcellular fractionation and in these experiments the P2 pellet was further fractionated on sucrose density gradients. Analysis of the radioactivity in the fractions showed that labelled GABA was accumulated by osmotically sensitive particles which had the sedimentation characteristics of synaptosomes. The panicles accumulating [³H]dopamine appeared to belong to a different, slightly lighter, population than those accumulating [¹⁴C]GABA. It is tentatively suggested that the particles accumulating labelled GABA were synaptosomes because the fractions containing these particles also possessed most of the GAD activity of the gradient. In contrast, GABA-T and MAO activity was found in the dense fractions of the gradients usually associated with mitochondria.
When retinae were incubated with a high concentration of labelled GABA a'lighter'population of particles seemed to accumulate the amino acid than when a low external GABA concentration was used. These results suggest that the high and low affinity uptake processes for GABA in the retina may have different cellular sites.     

Characterization of Serotonin Transporter in Goldfish Retina by the Binding of [3H]Paroxetine and the Uptake of [3H]Serotonin: Modulation by Light

Abstract: The serotonin (5-HT) uptake system of goldfish retina was evaluated by the binding of [³H]paroxetine to membrane preparations and the uptake of [³H]5-HT into isolated cells from goldfish retina. The order of potency of inhibitors of [³H]paroxetine binding was imipramine > 5-methoxy- N,N -dimethyltryptamine > desipramine > fluoxetine > citalopram > 5-HT. The saturation experiments indicated a high-affinity binding site, and positive cooperativity with Hill coefficient higher than unity. The association reached equilibrium at about one hour of incubation and was efficiently displaced by imipramine. The equilibrium dissociation constants calculated by the antilog of the log concentration of ligand giving 50% of occupation, and by the ratio of dissociation/association constants, were similar: 5.84 and 2.34 n M , respectively. The binding was not significantly reduced by decreasing the temperature of incubation and was sodium dependent. The lesion with 5,7-dihydroxytryptamine reduced the binding to 60%. The uptake of [³H]5-HT into isolated cells also showed positive cooperativity. The order of potency of inhibitors was similar to the one obtained for the binding of [³H]paroxetine. Darkness increased the uptake of 5-HT. The allosteric regulation of the 5-HT transporter and the modulation by light could be related to the physiological role of the monoamine, as a neurotransmitter and as a precursor of melatonin synthesis in the retina.     

Stimulation of [3H]GABA and β-[3H]Alanine Release from Rat Brain Slices by cis-4-Aminocrotonic Acid

Abstract: cis -4-Aminocrotonic acid (CACA; 100 µ M ), an analogue of GABA in a folded conformation, stimulated the passive release of [³H]GABA from slices of rat cerebellum, cerebral cortex, retina, and spinal cord and of β-[³H]alanine from slices of cerebellum and spinal cord without influencing potassium-evoked release. In contrast, CACA (100 µ M ) did not stimulate the passive release of [³H]taurine from slices of cerebellum and spinal cord or of d -[³H]aspartate from slices of cerebellum and did not influence potassium-evoked release of [³H]taurine from the cerebellum and spinal cord and d -[³H]aspartate from the cerebellum. These results suggest that the effects of CACA on GABA and β-alanine release are due to CACA acting as a substrate for a β-alanine-sensitive GABA transport system, consistent with CACA inhibiting the uptake of β-[³H]alanine into slices of rat cerebellum and cerebral cortex. The observed K _i for CACA against β-[³H]alanine uptake in the cerebellum was 750 ± 60 µ M . CACA appears to be 10-fold weaker as a substrate for the transporter system than as an agonist for the GABA_c receptor. The effects of CACA on GABA and β-alanine release provide indirect evidence for a GABA transporter in cerebellum, cerebral cortex, retina, and spinal cord that transports GABA, β-alanine, CACA, and nipecotic acid that has a similar pharmacological profile to that of the GABA transporter, GAT-3, cloned from rat CNS. The structural similarities of GABA, β-alanine, CACA, and nipecotic acid are demonstrated by computer-aided molecular modeling, providing information on the possible conformations of these substances being transported by a common carrier protein.     

Region-Selective Decreases in Densities of [3H]Tryptamine Binding Sites in Autopsied Brain Tissue from Cirrhotic Patients with Hepatic Encephalopathy

Abstract: The distribution of [³H]tryptamine binding sites, in autopsied brain tissue from cirrhotic patients with hepatic encephalopathy (HE) and an equal number of age-matched control subjects free from hepatic, neurological, or psychiatric disorder, was investigated. Scatchard analysis demonstrated a heterogeneous distribution for this binding site, with the highest density being observed in hippocampus ≫ frontal cortex = caudate nucleus > temporal cortex = cerebellum. When comparing [³H]-tryptamine binding site densities in control brain tissue with that in brain tissue from patients with HE, significant decreases in densities were observed in the frontal cortex (by 56%, p < 0.001), hippocampus (by 43%, p < 0.001), and caudate nucleus (by 41%, p < 0.01) of the HE group. Binding site affinities were within normal limits. The findings of decreased densities of [³H]tryptamine binding sites taken in conjunction with previous reports of increased CSF and brain tryptamine concentrations in HE suggest a pathogenic role for this neuroactive amine in HE resulting from chronic liver failure.     

Measurement of the Membrane Potential of Isolated Nerve Terminals by the Lipophilic Cation [3H]Triphenylmethylphosphonium Bromide

Abstract: The lipophilic cation [³H]triphenylrnethylphosphonium bromide ([³H]TPMP⁺) was investigated as a measure of the membrane potential of synaptosomes. Conditions under which [³H]TPMP⁺ achieved an equilibrium distribution were tested. The toxicity of TPMP has been studied relative to its inhibitory effects on [³H]y-aminobutyric acid ([³H]GABA) transport. In some experiments the distribution of ⁸⁶RbZ⁺ and [³H]TPMP⁺ was changed upon incubation in the presence of elevated levels of K⁺, ouabain, or KCN, or at 0°C in a way that would be expected from the membrane potential. In normal incubation conditions a membrane potential of ∼−60 mv was calculated.