High-Affinity Uptake of (RS)-Nipecotic Acid in Astrocytes Cultured from Mouse Brain. Comparison with GABA Transport

Abstract: (RS)-Nipecotic acid is taken up into cultured astrocytes by a saturable high-affinity transport system with a K_m, of 28.8 ± 2.8 μM and a V_max of 0.294 ± 0.022 nmol × min⁻¹× [mg cell protein]⁻¹. The uptake which represents a net inward transport was sodium-dependent, requiring translocation of one sodium ion for each molecule of nipecotic acid taken up. The most potent inhibitors of GABA uptake into astrocytes (GABA, (R)-nipecotic acid, (3RS,4SR)-4-hydroxynipecotic acid, and guvacine) were shown to be potent inhibitors of nipecotic acid uptake (IC₅₀) 20, 25, 25, and 50 μm respectively), GABA being a competitive inhibitor. (S)-2,4-Diaminobutyric acid was a more efficient inhibitor than β-alanine of glial uptake of (RS)-nipecotic acid. It is concluded that astroglial uptake of (RS)-nipecotic acid and GABA is mediated by the same transport system.     

Effect of Homo-β-Proline and Other Heterocyclic GAB A Analogues on GABA Uptake in Neurons and Astroglial Cells and on GABA Receptor Binding

Abstract: Two groups of GABA (γ-aminobutyric acid) analogues, one comprising derivatives of β-proline and the other compounds structurally related to nipecotic acid, were investigated as potential inhibitors of high-affinity GABA transport in neurons and glial cells, as well as displacers of GABA receptor binding. In addition to cis -4-hydroxynipecotic acid, which is known as a potent inhibitor of GABA uptake, homo-β-proline was the only compound which proved to be a potent inhibitor of glial as well as neuronal GABA uptake. IC₅₀ values for GABA uptake into glial cells and brain cortex "prisms" were 20 and 75 μM, respectively, and the IC₅₀ value obtained for GABA uptake into cultured neurons was 10 μM. A kinetic analysis of the action of homo-β-proline on GABA uptake into cultured astrocytes and neurons showed that this compound acts as a competitive inhibitor of GABA uptake in both cell types. From the apparent K _m values, K _i values for homo-β-proline of 16 and 6 μM could be calculated for glial and neuronal uptake, respectively. This mechanism of action strongly suggests that homo-β-proline interacts with the GABA carriers. Furthermore, homo-β-proline also displaced GABA from its receptor with an IC₅₀ value of 0.3 μM. The cis -4-hydroxynipecotic acid analogues, cis- and trans-4-mercaptonipecotic acid, had no inhibitory effect on glial or neuronal GABA uptake. Other SH reagents, PCMB, NEM and DTNB, were shown to be relatively weak inhibitors of GABA uptake into cultured astrocytes, suggesting that SH groups are not directly involved in the interaction between GABA and its transport carrier.     

Effect of Inhibitors of GABA Transaminase on the Synthesis, Binding, Uptake and Metabolism of GABA

Abstract: Four catalytic inhibitors of GABA aminotransferase (gabaculine, γ-acetylenic GABA, γ-vinyl GABA, ethanolamine O -sulphate) as well as aminooxyacetic acid and valproate were studied for effects on neurochemical assays for GABA synthesis, receptor binding, uptake and metabolism in mouse and rat brain preparations. Gabaculine did not interfere with GABA synthesis as reflected by the activity of glutamate decarboxylase (GAD), it was only a weak inhibitor (IC₅₀= 0.94 mM) of GABA receptor binding sites but was a moderately potent inhibitor of GABA uptake (IC₅₀= 81 μM) and very potent (IC₅₀= 1.8 μM) with respect to inhibition of the GABA-metabolizing enzyme GABA aminotransferase (GABA-T). γ-Acetylenic GABA was a weak inhibitor of GAD and GABA binding (IC₅₀ > 1 mM), but virtually equipotent to inhibit uptake and metabolism of GABA (IC₅₀ 560 and 150 μM, respectively). This was very similar to γ-vinyl GABA, except that this drug did not decrease GAD activity. Ethanolamine O -sulphate was found to show virtually no inhibition of GAD and GABA uptake, but was a fairly potent inhibitor of GABA binding (IC₅₀= 67 μM) and in this respect, 500 times more potent than as an inhibitor of GABA-T. Aminooxyacetic acid was a powerful inhibitor of both GAD and GABA-T (IC₅₀ 14 and 2.7 μM, respectively), but had very little affinity to receptor and uptake sites for GABA. Valproate showed no effects on GABA neurochemical assays which could be related to anticonvulsant action. The present results suggest that the anticonvulsant properties of the four catalytic inhibitors of GABA-T tested are at least in part mediated through a direct influence on GABA receptors and uptake sites.     

Cysteine Sulfinic Acid in the Central Nervous System: Uptake and Release of Cysteine Sulfinic Acid by a Rat Brain Preparation

Abstract: Uptake and release of cysteine sulfinic acid by synaptosomal fractions (P₂) and slices of rat cerebral cortex were investigated. The P₂ fraction had a Na⁺-dependent high-affinity uptake system for cysteine sulfinic acid (K_m, 12μM), which was restricted to the synaptosomes. High-affinity uptake of cysteine sulfinic acid was competitively inhibited by glutamate, aspartate, and cysteic acid. None of the various centrally acting drugs tested specifically inhibited this transport system. Release of [¹⁴C]cysteine sulfinic acid from preloaded cortical slices or P₂ fractions was examined by a superfusion method, which avoided reuptake of released [¹⁴C]cysteine sulfinic acid. High K⁺ (56 m M ) and veratridine (10μM) stimulated the release of cysteine sulfinic acid from slices and the P₂ fraction in a partly Ca²⁺-dependent manner. Diazepam at concentrations of 10 and 100 μM markedly inhibited the stimulated release, but not the spontaneous release, by cortical slices. On the contrary, it had no effect on the stimulated release of cysteine sulfinic acid from the P₂ fraction.     

Triiodothyronine Is a High-Affinity Inhibitor of Amino Acid Transport System L1 in Cultured Astrocytes

Abstract: The relationship between the transport of thyroid hormones and that of amino acids was examined by measuring the uptake of amino acids that are characteristic substrates of systems L, A, and N, and the effect of 3,3',5-triiodo-L-thyronine (T₃) on this uptake, in cultured astrocytes. Tryptophan and leucine uptakes were rapid, Na⁺-independent, and efficiently inhibited by T₃ (half-inhibition at ∼ 2 μ M ). Two Na⁺-independent L-like systems (L₁ and L₂), common to leucine and aromatic amino acids, were characterized kinetically. System L₂ had a low affinity for leucine and tryptophan ( K _m= 0.3–0.9 m M ). The high-affinity system L₁ ( K _m∼ 10 μ M for both amino acids) was competitively inhibited by T₃ with a K _i of 2–3 μ M (close to the T₃ transport K _m). Several T₃ analogues inhibited system L₁ and the T₃ transport system similarly. Glutamine uptake and α-(methylamino)isobutyric acid uptake were, respectively, two and 200 times lower than tryptophan and leucine uptakes. T₃ had little effect on the uptakes of glutamine and α-(methylamino)isobutyric acid. The results indicate that the T₃ transport system and system L₁ are related.     

Regionally Distinct N-Methyl-D-Aspartate Receptors Distinguished by Quantitative Autoradiography of [3H]MK-801 Binding in Rat Brain

Abstract: Quantitative autoradiography of [³H]MK-801 binding was used to characterize regional differences in N -methyl- d -aspartate (NMDA) receptor pharmacology in rat CNS. Regionally distinct populations of NMDA receptors were distinguished on the basis of regulation of [³H]MK-801 binding by the NMDA antagonist 3-(2-carboxypiperazin-4-yl)-propyl-1-phosphonic acid (CPP). CPP inhibited [³H]MK-801 binding in outer cortex (OC) and medial cortex (MC) with apparent K _i values of 0.32-0.48 μ M , whereas in the medial striatum (MS), lateral striatum (LS), CA1, and dentate gyrus (DG) of hippocampus, apparent K _i values were 1.1-1.6 μ M . In medial thalamus (MT) and lateral thalamus (LT) the apparent K _i values were 0.78 μ M . In the presence of added glutamate (3 μ M ), the relative differences in apparent K _i values between regions maintained a similar relationship with the exception of the OC. Inhibition of [³H]MK-801 binding by the glycine site antagonist 7-chlorokynurenic acid (7-ClKyn) distinguished at least two populations of NMDA receptors that differed from populations defined by CPP displacement. 7-ClKyn inhibited [³H]MK-801 binding in OC, MC, MS, and LS with apparent K _i values of 6.3-8.6 μ M , whereas in CA1, DG, LT, and MT, K _i values were 11.4-13.6 μ M . In the presence of added glycine (1 μ M ), the relative differences in apparent K _i values were maintained. Under conditions of differential receptor activation, regional differences in NMDA receptor pharmacology can be detected using [³H]MK-801 binding.     

Nickel and rubidium uptake by whole oat plants in solution culture

Nickel and rubidium uptake by oat plants ( Avena sativa L. cv. Victory) were examined in relation to solution temperature, solution concentrations, metabolic inhibitors, anaerobic root conditions, transpiration and time. Over a 4-h period, uptake rates for both Ni²⁺ and Rb⁺ remained constant at 23°C. Decreasing temperatures to 2°C, 20 μ M concentrations of 2,4-dinitrophenol (DNP), or anaerobic root conditions decreased Ni²⁺ and Rb⁺ uptake rates by 97 to 86% in whole plants. Treatment of excised roots with 20 μ M DNP decreased Ni²⁺ uptake by 93%. Nickel and Rb⁺ uptake rates measured as a function of the external solution concentration followed a typical parabolic curve. K_m (0.012 m M ) and V_max [2.72 μmol (g dry weight)^-1 h^-1] values for Ni²⁺ were nearly 7 times lower than those for Rb⁺ [0.09 m M and 19.2 μmol (g dry weight)^-1 h^-1]. In all experiments, Ni²⁺ and Rb⁺ showed qualitatively similar uptake patterns, but Rb⁺ uptake was quantitatively more sensitive than Ni²⁺ to experimental manipulations.     

45Ca2+ Uptake into Rat Whole Brain Synaptosomes Unaltered by Dihydropyridine Calcium Antagonists

Abstract: Voltage-dependent ⁴⁵Ca²⁺ uptake into rat whole brain synaptosomes was measured after 3-s KCl-induced depolarization to investigate possible inhibitory effects of calcium antagonists, nitrendipine, nimodipine, and nisoldipine. At a Ca²⁺ concentration of 1.2 m M , nitrendipine, in concentrations ranging from 0.1 n M to 10 μ M , had no effect on ⁴⁵Ca²⁺ uptake. When the Ca²⁺ concentration was lowered to 0.06 and 0.12 m M , nitrendipine, 10 μ M , inhibited ⁴⁵Ca²⁺ uptake in response to 109 m M KCl depolarization. However, in a separate concentration response study, nitrendipine, nimodipine, and nisoldipine, 0.1 n M to 10 μ M , failed to alter the uptake of ⁴⁵Ca²⁺ (0.06 m M Ca²⁺) into 30 m M KCl-depolarized synaptosomes. The high concentrations of these agents required to depress ⁴⁵Ca²⁺ uptake indicate that the dihydropyridine calcium antagonists are considerably less potent in brain tissue than in peripheral tissue.     

Aging Diminishes Serotonin-Stimulated Arachdonic Acid Uptake and Cholinergic Receptor-Activated Arachidonic Acid Release in Rat Brain Cortex Membrane

Abstract: Synaptoneurosomal and synaptosomal fractions from the brain cortex of adult (4-month-old) and aged (27-month-old) rats were used for studies on the uptake and subsequent release of [¹⁴C]arachidonic acid ([¹⁴C]AA) from brain lipids. The incorporation of AA and the pattern of its uptake into lipids of the aged brain cortex synapto-neurosomes and synaptosomes were not significantly different when compared with those in the adult brain cortex fractions. Serotonin (5-HT), at 10 μM to 1 μM in the presence of pargyline and the agonist of the 5-HT_1A receptor, buspirone, stimulated AA uptake into membrane lipids, mainly into phosphatidylinositol, by about 40% exclusively in adult brain synaptoneurosomes. Aging significantly diminished the effect of 5-HT on AA uptake. Synaptoneurosomal and synaptosomal fractions prelabeled with [¹⁴C]AA were used subsequently for investigation of voltage-dependent, muscarinic and 5-HT receptor-mediated AA release. Aging diminished markedly carbachol-stimulated Ca²⁺-dependent AA liberation from membrane lipids of synaptoneurosomes and synaptosomes. Moreover, aging decreased voltage-dependent and 5-HT₂ receptor-mediated AA release. These results show that aging affects receptor-dependent AA uptake and pre-and postsynaptic receptor-mediated AA release. These modulations of AA incorporation and release in aged brain may be of patho-physiological significance, in view of the importance of these processes for signal transmission in the brain. The changes of receptor-dependent processes of deacylation and reacylation may be responsible for alteration in the function of neuronal cells and may affect learning and memory ability and brain plasticity during aging.     

Formation of 2-hydroxy-4-methylpentanoic acid from l-leucine by Clostridium butyricum

Abstract Five Clostridium butyricum strains of different origin were grown in trypticase-yeast extract-hemin medium with or without d-glucose (TGYH or TYH medium, respectively) and in a synthetic basal medium with d-glucose (BMG medium). 2-Hydroxy-4-methylpentanoic acid was detected by gas chromatography-mass spectrometry (GC-MS) for the five strains whether grown in TGYH or TYH medium (270 or 170 μM, respectively). In BMG medium supplemented with l-leucine (10 mM), the concentration of this metabolite was strongly increased (2.8 mM versus 10 μM in the control). After culture in TGYH or TYH medium supplemented with l-( methyl -²H₃)leucine, 2-hydroxy-4-([²H₃]methyl)pentanoic acid was detected by GC-MS. This observation demonstrates that C. butyricum is able to convert l-leucine into the corresponding 2-hydroxy acid and opens a new aspect in the study of C. butyricum metabolism.     

Effects of Free Fatty Acids on Synaptosomal Amino Acid Uptake Systems

Abstract: The Na⁺-dependent synaptosomal uptakes of proline, aspartic acid, glutamic acid, and γ-aminobutyric acid were strongly inhibited by monounsaturated fatty acids. With oleic acid, half-maximal inhibition was observed at about 15 μM. The Na⁺-independent uptakes of leucine, phenylalanine, histidine, and valine were less sensitive to inhibition by the unsaturated fatty acids. In contrast, the uptakes of all of these amino acids were unaffected by saturated fatty acids. The inhibition of proline uptake (and that of the other Na⁺-dependent amino acids) by oleic acid was overcome by the addition of serum albumin and the data presented further indicate that the previously reported stimulation of proline uptake by albumin could be related to its fatty acid binding properties.     

The regulation of Mn2+ and Cu2+ uptake in cells of the yeast Candida utilis grown in continuous culture

Abstract Transport of Mn²⁺ was repressed in Candida utilis cells grown in continuous culture in high-Mn²⁺ (100 μM Mn²⁺) medium as compared to cells grown in basic (0.45 μM Mn²⁺) and low-Mn²⁺ (< 0.05 μM Mn²⁺) media. In contrast, no repression of Cu²⁺ uptake occurred in high-Cu²⁺-grown (25 μM Cu²⁺) cells as compared to cells grown in basic medium (0.54 μM Cu²⁺). Cu²⁺-limited cells did not hyperaccumulate Cu²⁺ and there was not significant difference in initial uptake rates for all 3 Cu²⁺ conditions. Mn²⁺ uptake appears to be regulated by a mechanism sensitive to the external Mn²⁺ concentration, whereas Cu²⁺ transport is not governed in this way by the external Cu²⁺.     

Uptake kinetics of iron-phytosiderophores in two maize genotypes differing in iron efficiency

Iron inefficiency in the maize ( Zea mays L.) mutant ysl is caused by a defect in the uptake system for Fe-phytosiderophores. To characterize this defect further, the uptake kinetics of Fe-phytosiderophores in ysl was compared to the Fe-efficient maize cultivar Alice. Short-term uptake of ⁵⁹Fe-labeled Fe-deoxymugineic acid (Fe-DMA) was measured over a concentration range of 0.03 to 300 μM. Iron uptake in Fe-deficient plants followed Michaelis-Menten kinetics up to about 30 μM and was linear at higher concentrations, indicating two kinetically distinct components in the uptake of Fe-phytosiderophores. The saturable component had similar K_m (∼ 10 μM) in both genotypes. In contrast. V_max was 5.5 μmol Fe-DMA g⁻¹ dry weight [30 min]⁻¹ in Alice, but only 0.6 μmol Fe-DMA g⁻¹ dry weight [30 min]⁻¹ in _ysl. Uptake experiments with double-labeled ⁵⁹Fe-[¹⁴C]DMA suggest that in both cultivars Fe-DMA was taken up by the roots as the intact chelate. The results indicate the existence of a high-affinity and a low-affinity uptake system mediating Fe-phytosiderophore transport across the root plasma membrane in maize. Apparently, the mutation responsible for Fe inefficiency in ysl affected high-affected uptake and led to a decrease in activity and/or number of Fe-phytosiderophore transporters.     

Glutamate Activates Phospholipase D in Hippocampal Slices of Newborn and Adult Rats

Abstract: Phospholipase D (PLD) is activated by many neuro-transmitters in a novel signal transduction pathway. In the present work, PLD activity was studied comparatively in hippocampal slices of newborn and adult rats. Basal PLD activity in adult rats was almost three times higher than in newborn rats. In newborn rats, L-glutamate and 1 S ,3 R -1-aminocyclopentane-1,3-dicarboxylic acid (1 S ,3 R -ACPD) time- and concentrationdependently enhanced the formation of [³H]phosphatidylpropanol ([³H]PP) and of [³H]phosphatidic acid in the presence of 2% propanol. N -MethylD-aspartate and kainate (both 1 m M ) caused small, but significant increases (∼50%). whereas α-amino-3-hydroxy-5-methylisoxazole-4-propionate (100 μ M ) was ineffective. Maximally effective concentrations of glutamate (1 m M ) and of 1 S ,3 R -ACPD (300 μ M ) increased the PLD activity to almost 300% of basal activity; the EC₅₀ values were 199 and 47 μ M , respectively. Glutamate receptor antagonists, such as DL-2-amino-3-phosphonopropionic acid (AP3). DL-2-aminc-5-phosphonovalenic acid, and kynurenate (all 1 m M ) did not inhibit the glutamate-evoked increase of PP formation. In slices of adult rats, the response to 1 S ,3 R -ACPD was significant, but small, whereas glutamate was effective only in the presence of the glutamate uptake inhibitor L-aspartate-β-hydroxarnate. It is concluded that glutamate activates PLD in rat hippocampus through an AP3-resistant metabotropic receptor. This effect is subject to ontogenetic development, with one important factor being glutamate uptake.     

Expression of Excitatory Amino Acid Receptors by Cerebellar Cells of the Type-2 Astrocyte Cell Lineage

Abstract: We have used postnatal rat cerebellar astrocyte-enriched cultures to study the excitatory amino acid receptors present on these cells. In the cultures used, type-2 astrocytes (recognized by the monoclonal antibodies A2B5 and LB1) selectively took up γ-[³H]aminobutyric acid ([³H]GABA) and released it when incubated in the presence of micromolar concentrations of kainic and quisqualic acids. The releasing effect of kainic acid was concentration dependent in the range of 5–100 μ M . Quisqualate was more effective than kainate in the lower concentration range but less effective at concentrations at which its releasing activity was maximal (∼50 μ M ). N -Methyl- d -aspartic acid and dihydrokainate (100 μ M ) did not stimulate [³H]GABA release from cultured astrocytes. l -Glutamic acid (20–100 μ M ) stimulated [³H]GABA release as effectively as kainate. The stimulatory effects of kainate and quisqualate on [³H]GABA release were completely Na⁺ dependent; that of kainate was also partially Ca²⁺ dependent. Kynurenic acid (50–200 μ M ) selectively antagonized the releasing effects of kainic acid and also that of l -glutamate; quisqualate was unaffected. Quisqualic acid inhibited the releasing effects of kainic acid when both agonists were used at equimolar concentrations (50 μ M ). d -[³H]aspartate was taken up by both type-1 and type-2 astrocytes, but only type-2 astrocytes released it in the presence of kainic acid. Excitatory amino acid receptors with a pharmacology similar to that of the receptors present in type-2 astrocytes were also expressed by the immature, bipotential progenitors of type-2 astrocytes and oligodendrocytes.     

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.     

Distinct Differences Between Morphine- and [d-Ala2,N-MePhe4,Gly-ol5]-Enkephalin- μ-Opioid Receptor Complexes Demonstrated by Cyclic AMP-Dependent Protein Kinase Phosphorylation

Abstract: The present study demonstrates a conditional, agonist-dependent phosphorylation of the μ-opioid receptor (MOR-1) by cyclic AMP-dependent protein kinase (PKA) in membrane preparations of MOR-1-transfected neuroblastoma Neuro2A cells. Opioid agonist-dependent phosphorylation occurs in a time- and concentration-dependent manner (EC₅₀∼40 n M ) and can be abolished by the receptor antagonist naloxone. Stoichiometric analysis indicates incorporation of a maximum of 6 mol of phosphate/mol of receptor in the presence of 1 µ M morphine and 6 n M PKA. Although morphine and related alkaloids as well as some peptide agonists (PLO17 and β-endorphin) stimulated phosphorylation of MOR-1 by PKA, the potent μ-opioid-selective peptide [ d -Ala², N -MePhe⁴,Gly-ol⁵]-enkephalin (DAMGO) or other enkephalin analogues such as [ d -Ala²]-Met⁵-enkephalinamide (DALA), [ d -Ala², d -Leu⁵]-enkephalin (DADLE), and Met⁵-enkephalin had no effect. The lack of the effect of DAMGO on MOR-1 phosphorylation state was evident also after chronic pretreatment. These results suggest the existence of different agonist-dependent conformations of MOR-1. Furthermore, phosphorylation may be a useful parameter with which to identify different agonist-receptor conformations.     

Effects of Redox Reagents and Arsenical Compounds on [3H]-Cytisine Binding to Immunoisolated Nicotinic Acetylcholine Receptors from Chick Brain Containing α4 β2 Subunits

All known nicotinic receptor α subunits include a conserved disulfide bond that is essential for function and is a site for labeling via biochemical modification. In an effort to develop a universal ligand for all subtypes of nicotinic receptors, we previously studied the effects of arsenylation with two compounds, ρ-aminophenyldichloroarsine (APA) and bromoacetyl-ρ-aminophenylarsenòxide (BAPA) on nicotinic receptors from Torpedo electroplax. Here we apply these reagents to immunoisolated receptors containing α4, β2, and possibly other subunits from chick brain that bind [³H]cytisine with high affinity (K_D∼5 nM). These are distinct from another receptor subtype that also binds [³H]cytisine and [³H]nicotine and can be arsenylated with APA, but instead contains α5,β2, and probably other subunits. Reduction of α4 β2 receptors with dithiothreitol blocked [³H]cytisine binding and this effect was reversed upon reoxidation by dithiobisnitrobenzoic acid. APA or BAPA prevented the dithiobisnitrobenzoic acid reactivation of dithiothreitol-treated receptors with IC₅₀ values of 15 and 70 n M , respectively. However, the antiarsenical dimercaptopropanesulfonic acid restored function to APA- or BAPA- "arsenylated" receptors (EC₅₀∼100 μ M ). APA-treated receptors remained blocked for up to 24 h, but treatment with dimercaptopropanesulfonic acid at any time restored [³H]cytisine binding. APA treatment of reduced receptors protected against irreversible alkylation by Bromoacetyl choline, indicating that arsenylation occurs at least in part in the agonist binding site. Thus, these reagents have similar effects on different nicotinic receptor subtypes from both muscle and nerves.     

Availability, uptake and turnover of glycerol in hypersaline environments

Abstract A sensitive assay for glycerol and other polyols was developed, based on periodate oxidation to formaldehyde, followed by a colorimetric assay with 3-methyl-2-benzothiazolone hydrazone. Apparent glycerol concentrations thus measured in saltern crystallizer ponds were around 20–36 μM, while in the Dead Sea, during a Dunaliella bloom, values were up to 27 μM. However, these values probably overestimate the glycerol concentrations present, as shown by labeled glycerol uptake experiments. Values of [K + S_n] (natural concentration + affinity constant) in saltern ponds were as low as 0.76–1.4 μM, with V_max values of 193–303 nmol 1⁻¹h⁻¹, and turnover times between 2.6–7.2 h at 35°C. Similar measurements in the Dead Sea were: [K + S_n] 0.07–1.41 μM, V_max values 160–426 nmol 1⁻¹h⁻¹, and turnover times in the range of 0.45–3.3 h.     

Blockade by Neurotransmitter Antagonists of Veratridine-Activated Ion Channels in Neuronal Cell Lines

Abstract: The voltage-dependent Na⁺ ionophore of various neuronal cells is permeable not only to Na⁺ ions but also to guanidinium ions. Therefore, the veratridine-(or aconitine-) stimulated influx of [¹⁴C]guanidinium in neuroblastoma × glioma hybrid cells was measured to characterize the Na⁺ ionophore of these cells. Half-maximal stimulation of guanidinium uptake was seen at 30 μ M veratridine. At 1 m M guanidinium, the veratridine-stimulated uptake of guanidinium was lowered to 50% by approximately 60 m M Li⁺, Na⁺, or K⁺ and by a few millimolar Mn²⁺, Co²⁺, or Ni²⁺. The basal, as well as the veratridine-stimulated, uptake of guanidinium was inhibited by the cholinergic antagonists (+)-tubocurarine ( K_i = 50 to 500 n M ) and atropine ( K_i = 5 to 30 μ M ) and the adrenergic antagonists phentolamine ( K_i = 5 μ M ) and propranolol ( K_i = 60 μ M ). The specificity of the inhibitory effects of these agents is stressed by the ineffectiveness of various other neurotransmitter antagonists. However, the corresponding ionophore in neuroblastoma cells (clone N1E-115) seems to be regulated differently. While phentolamine and propranolol inhibit the veratridine-activated uptake as in the hybrid cells, (+)-tubocurarine and atropine exert only a slight effect.