Effects of simultaneous dopamine- and glutamatergic stimulation of the n. accumbens on synaptic dopamine release in the striatum of free-ranging rats

Research was performed on free-ranging Sprague-Dawley strain rats using in vivo intracranial dialysis techniques combined with radioenzymatic analysis of dopamine level. Dialysis infusion of the n. accumbens with artificial cerebrospinal fluid containing a mixture of amphetamine and glutamate (each at a concentration of 10^–3 M) was found to intensify synaptic dopamine release into the dorsal striatum, while administering these substances separately to the n. accumbens induces inhibition of synaptic dopamine release in this striatal area. Findings indicate that the n. accumbens exerts an influence on function of the nigrostriatal dopaminergic system and that the pattern of this influence may be determined by interaction between dopamine- and glutamatergic inputs from this nucleus.I. P. Pavlov Institute of Physiology, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 22, No. 5, pp. 621–626, September–October, 1990.     

Changes in the Properties of Glutamatergic Synapses in the Medial Prefrontal Cortex and Nucl. Accumbens in Rats with Behavioral Depression

In experiments on surviving rat forebrain slices, we studied the characteristics of glutamatergic synaptic transmission in the medial prefrontal cortex (MPFC) and nucl. accumbens. It was found that in rats with behavioral depression induced by zoosocial isolation (72 h), the mean amplitude of field EPSP (fEPSP) in the MPFC demonstrated no significant alterations. At the same time, the developments of rhythmic stimulation-caused long-term potentiation (LTP) and long-term depression (LTD) of synaptic transmission were suppressed, as compared with the control. In the nucl. accumbens of rats with behavioral depression, the mean fEPSP amplitude increased by nearly 25%, whereas rhythmic stimulation-induced LTD of transmission through synaptic connections between the cortex and nucl. accumbens weakened. Changes in the relay and plastic properties of glutamatergic synapses typical of behavioral depression were reproduced under conditions of chronic (for 3 days) i.p. injections of 1 mg/kg dexamethasone into the experimental animals. The influences exerted on brain slices in vitro by a synthetic glucocorticoid, dexamethasone, and a mineralocorticoid, deoxycorticosterone acetate, applied over 2 h in concentrations of 100 nM, did not significantly affect glutamatergic synaptic transmission in the MPFC and nucl. accumbens. In brain slices from animals with behavioral depression or from those subjected to chronic injection of dexamethasone, we observed a reduction of the modulatory effect of dexamethasone and a nonselective agonist of dopamine receptors, apomorphine hydrochloride, on glutamatergic synaptic transmission in the MPFC and nucl. accumbens. This is considered an indirect reflection of a decrease in the efficiency (down-regulation) of glucocorticoid and dopamine receptors in neurons of the brain structures under study. It is hypothesized that changes in the main properties of glutamatergic synapses in the forebrain structures (MPFC and nucl. accumbens), which were observed under conditions of behavioral depression, are determined by both direct effects of glucocorticoids on cortical and mesolimbic neurons and indirect effects mediated by the cerebral dopaminergic system.     

Laminar distribution of the cells of origin of the spinocerebral pathways involved in nociceptive transmission and pain modulation in the rat

The laminar distribution of spinomesencephalic, spinothalamic, and spinotelencephalic tract neurons, and the pattern of axonal collateralization in these spinocerebral pathways were studied in the rat by means of retrograde double-labelling of the cells with fluorescent dyes Fluoro-Gold and Primuline O. We found that sources of spinocerebral pathways to the analgesic brainstem centers, as well to thenucl. accumbens and septal nuclei, were mixed together in the marginal zone (lamina I, by Rexed), in the deep dorsal horn (laminae IV–VI), in the area around the central canal (lamina X), and within the lateral spinal nucleus. At the same time, all the above pathways retain their own specific projection fields. Thus, these spinocerebral projections could be characterized as extensive, but not diffuse. We propose that the main effect of activation of the direct spinal inputs to the limbic system is an increase in nociceptive sensitivity, but not a suppression of nocicptive transmission at the the spinal cord level.Neirofiziologiya/Neurophysiology, Vol. 28, No. 2/3, pp. 141–150, March–June, 1996.     

The effect of glucose and glutamine on the intracellular nucleotide pool and oxygen uptake rate of a murine hybridoma

The effects of media concentrations of glucose andglutamine on the intracellular nucleotide pools andoxygen uptake rates of a murine antibody-secretinghybridoma cell line were investigated. Cells takenfrom mid-exponential phase of growth were incubated inmedium containing varying concentrations of glucose(0–25 mM) and glutamine (0–9 mM). The intracellularconcentrations of ATP, GTP, UTP and CTP, and theadenylate energy charge increased concomitantly withthe medium glucose concentration. The total adenylatenucleotide concentration did not change over a glucose concentration range of 1–25 mM but therelative levels of AMP, ADP and ATP changed as theenergy charge increased from 0.36 to 0.96. Themaximum oxygen uptake rate (OUR) was obtained in thepresence of 0.1–1 mM glucose. However at glucoseconcentrations >1 mM the OUR decreased suggestinga lower level of aerobic metabolism as a result of theCrabtree effect.A low concentration of glutamine (0.5 mM) caused asignificant increase (45–128%) in the ATP, GTP,CTP, UTP, UDP-GNac, and NAD pools and a doubling ofthe OUR compared to glutamine-free cultures. Theminimal concentration of glutamine also caused anincrease in the total adenylate pool indicating thatthe amino acid may stimulate thede novosynthesis of nucleotides. However, all nucleotidepools and the OUR remained unchanged within the rangeof 0.5–9 mM glutamine.Glucose was shown to be the major substrate forenergy metabolism. It was estimated that in thepresence of high concentrations of glucose (10–25 mM),glutamine provided the energy for the maintenance ofup to 28% of the intracellular ATP pool, whereas theremainder was provided by glucose metabolism.(Author for correspondence; E-mail:     

Sensitivity of hippocampal interneurons and pyramidal cells to GABA and some of its agonists:in vitro experiments

Effects of GABA and its agonists baclofen and muscimol on the background spike activity of single hippocampal neurons were studied in rat brain slices using an intracellular recording technique. Interneurons localized in thestratum alveus-oriens and pyramidal neurons of thestratum pyramidale showed high sensitivity to GABA (mean ID₅₀=65 µM and 40 µM, ranges 10–140 µM and 3–200 µM), baclofen (ID₅₀=2.6 µM and 3.5 µM, ranges 0.6–20.0 µM and 0.4–30.0 µM), and muscimol (ID₅₀=0.85 µM and 0.21 µM, ranges 0.11–4.0 µM and 0.05–0.45 µM, respectively). Responses of hippocampal neurons to application of GABA or either of its agonists were predominantly inhibitory. A part of interneurons (30%) differed from pyramidal neurons in their irresponsivity or low sensitivity to baclofen applications. GABA- or muscimol-induced inhibition of spike activity in many pyramidal cells was preceded by a short-lasting excitation. Our findings indicate that a part of hippocampal interneurons are very poorly supplied with GABAb receptors. Inhibition of pyramidal cells evoked by activation of GABAa receptors probably develops against the background of accompanying depolarization, which in some cases can result in a provisional excitation of these neurons. The excitatory effects of GABA on the pyramidal cells are mediated by GABAa receptors.Neirofiziologiya/Neurophysiology, Vol. 27, No. 1, pp. 36–44, January–February, 1995.     

Inhibitory and activatory effects of dopamine on neurons in slices of the compact zone of theSubstantia nigra of rats

Effects of dopamine on the background spike activity of functionally (according to their electrophysiological characteristics) identified dopaminergic (DA) or non-dopaminergic (non-DA) neurons of the compact zone of thesubstantia nigra were studied on slices of the midbrain of adult rats. In the majority of DA neurons, dopamine suppressed the background activity in a dose-dependent manner. Sensitivity of these cells to dopamine varied within a wide range: IC₅₀, the concentration providing the 50% maximum effect, equalled from 3 to 3,000 µM in different units. A part of DA neurons responded to dopamine with an increase in their activity. Mixed responses, in which an initial suppression of impulsation was replaced by a slow-developing activation, was observed in some neurons. Non-DA neurons usually responded to dopamine by an enhancement of impulsation; yet, the cells with inhibitory or mixed responses similar to those of DA neurons could be found in this population as well. Sensitivity of non-DA neurons to dopamine was about the same as that of DA-cells, without the dependence on the direction of responses. S(–)-suipiride, a blocker of D₂ receptors, decreased the inhibitory component of all tested responses to dopamine both in DA and non-DA neurons and evoked no changes in the excitatory component. At the same time, R(+)-SCH 23390 HC1, a blocker of D₁ receptors, suppressed the activatory component of responses with no effect on the inhibitory component. We conclude that both types of DA receptors, D₂ and D₁ receptors, can be present on the DA and non-DA neurons. Dopamine, influencing these receptors, suppresses or facilitates, respectively, the spike activity of these cells. The relative amount of such receptors is the main factor determining the pattern and dynamics of the integral response to dopamine application. The possible functional role of the presence of both D₁ and D₂ receptors on the membrane of a single neuron is discussed.Neirofiziologiya/Neurophysiology, Vol. 27, No. 4, pp. 268–277, July–August, 1995.     

Effect of Mg2+ concentrations on phosphorylation/activation of phosphorylase b kinase by cAMP/Ca2+-independent, autophosphorylation-dependent protein kinase

In a previous report (Yu and Yang,Biochem. Biophys. Res. Commun. 207, 140–147 (1995)], phosphorylase b kinase from rabbit skeletal muscle was found to be phosphorylated and activated by a cyclic nucleotide- and Ca²⁺-independent protein kinase previously identified as an autophosphorylation-dependent multifunctional protein kinase (autokinase) from brain and liver (Yanget al, J. Biol. Chem. 262, 7034–7040, 9421–9427 (1987)]. In this report, the effect of Mg²⁺ ion concentration on the auto-kinase-catalyzed activation of phosphorylase b kinase is investigated. The levels of phosphorylation and activation of phosphorylase b kinase catalyzed by auto-kinase are found to be dependent on the concentration of Mg²⁺ ion used. Phosphorylation of phosphorylase b kinase at high Mg²⁺ ion (>9 mM) is 2–3 times higher than that observed at low Mg²⁺ ion (1 mM) and this results in a further 2- to 3-fold activation of the enzyme activity at high Mg²⁺ ion. Analysis of the phosphorylation stoichiometry of and subunits of phosphorylase b kinase at different Mg²⁺ ion concentrations further reveals that the phosphorylation level of the subunit remains almost unchanged, whereas the phosphorylation level of the subunit increases dramatically and correlates with the increased enzyme activity. In similarity with the subunit, phosphorylations of myelin basic protein and histone 2A by auto-kinase are also unaffected by Mg²⁺ ion. Taken together, the results provide initial evidence that Mg²⁺ ion may specifically render thea subunit a better substrate for auto-kinase to cause further phosphorylation/activation of phosphorylase b kinase, representing a new mode of control mechanism for the regulation of auto-kinase involved in the phosphorylation and concurrent activation of phosphorylase b kinase.     

Minimal enhancer elements of the leghemoglobinlba andlbc3 gene promoters fromGlycine max L. have different properties

The characteristics of the soybean leghemoglobinlba gene promoter were analyzed and important promoter elements from thelba andlbc3 promoters were compared using transgenicLotus corniculatus plants. A 5 deletion analysis of thelba promoter delimited twocis-acting elements controlling expression: a distal positive element (–1254, –884) required for expression and a proximal element (–285, –60) essential for full-level activity. In contrast to the corresponding region of thelbc3 promoter, thelba proximal element is unable to control expression from the heterologous CaMV 35S enhancer. The upstream positive element of thelba gene contains a position- and orientation-independent enhancer between positions (–1091, –788). The sequence of this enhancer region is conserved in thelbc3 gene upstream (–1333, –1132) of the previously assigned strong positive element (SPE; –1090, –947). The present analysis revealed some of the properties of this extendedlbc3 SPE element. The extended element (–1364, –947) functions in both orientations from 5 locations whereas the SPE2 subcomponent (–1364, –1154) containing the conserved sequence is only active in the correct orientation. Removal of the SPE2 by internal deletion demonstrates that the SPE2 subcomponent is indispensable for the activity of thelbc3 upstream positive element. These results indicate that the upstream positive elements of thelba andlbc3 genes possess different properties although their conserved minimal enhancer sequence has similar function. This may reflect the differential expression of the twolb genes ofGlycine max L.     

Depressing action of nitroglycerin on voltage-activated calcium current in isolated smooth muscle cells of the guinea pig gut

The effect of nitroglycerin (NG) on inward voltage-activated calcium current (I _Ca) was studied in isolated smooth muscle cells (SMC) of the guinea pigtaenia coli with the voltage clamp technique in an intracellular dialysis mode. Addition of NG (10^–7 to 10^–4 M) to the extracellular solution reduced theI _Ca amplitude and increased theI _Ca inactivation rate. The maximum inhibition ofI _Ca (on the average, by 41.7 ± 4.8%,n=13) was produced by 10^–4 M NG; the inhibition was dose-dependent. No shift of theI _Ca current-voltage curve under the NG influence was observed. Application of dibutyril-cGMP (2·10^–4 M), a membrane-penetrating analog of cyclic 3,5-guanosine monophosphate (cGMP), likewise decreased theI _Ca amplitude and increased its inactivation rate. The results obtained suggest that the NG inhibitory effect onI _Ca is related to a cGMP-dependent modulation of the voltage-activated calcium channels of L-type in the SMC membrane in the guinea pigtaenia coli.Neirofiziologiya/Neurophysiology, Vol. 26, No. 3, pp. 218–222, May–June, 1994.     

DOPAMINE IN THE MESOLIMBIC SYSTEM OF THE RAT BRAIN: ENDOGENOUS LEVELS AND THE EFFECTS OF DRUGS ON THE UPTAKE MECHANISM AND STIMULATION OF ADENYLATE CYCLASE ACTIVITY

Abstract— High concentrations of dopamine were found in the nucleus accumbens and olfactory tubercle of the rat brain using a radiochemical enzymatic assay technique. An active uptake system for [³H]dopamine that is temperature sensitive and dependent on external sodium ions is present in synaptosome-rich homogenates of these two brain areas. This uptake process is potently inhibited by benztropine (IC₅₀= 2.0 × 10^-7m ). Dextroamphetamine d was 4.5 times more potent than 1-amphetamine in inhibiting dopamine uptake in the nucleus accumbens and six times more potent in the olfactory tubercle and corpus striatum. Low concentrations of dopamine caused an increase in adenosine 3′5′-monophosphate (cyclic AMP) formation in homogenates of both the nucleus accembens and olfactory tubercle. This effect was potently blocked by chlorpromazine. The α-adrenoceptor antagonist phentolamine weakly antagonized the stimulation of this adenylate cyclase by dopamine, but the β-adrenoceptor antagonist propranolol did not.     

Modeling the cucumber fermentation: Growth ofLactobacillus plantarum

Summary Specific growth rate models of product-inhibited cell growth exist but are rarely applied to fermentations beyond ethanol and large-scale antibiotic production. The present paper summarizes experimental data and the development of a model for growth of the commercially important bacterium,Lactobacillus plantarum, in cucumber juice. The model provides an excellent correlation of data for the influence on bacterial growth rate of NaCl, protons (H⁺), and the neutral, inhibitory forms of acetic acid and the fermentation product, lactic acid. The effects of each of the variables are first modeled separately using established functional forms and then combined in the final model formulation.Nomenclature [C] inhibitory component concentration, mM - [C]_max concentration of the inhibitory component where the specific growth rate is zero, mM, determined by model fitting - [H⁺] hydrogen ion concentration, mM - [HLa] undissociated lactic acid concentration, mM - [La^–] dissociated lactic acid concentration, mM - [La_t] total lactic acid ([HLa]+[La^–]) concentration, mM - [HAc] undissociated acetic acid concentration, mM - [Ac^–] dissociated acetic acid concentration, mM - [Ac_t] total acetic acid ([HAc]+[Ac^–]) concentration, mM - [NaCl] sodium chloride concentration, %, w/v - specific growth rate, h^–1 - _max maximum specific growth rate, h^–1 - ₀ specific growth rate, h^–1, at 0 concentration of additive - K _ij inhibition coefficient - , ,K _m coefficients determined by model fitting Mention of a trademark or proprietary product does not constitute a guarantee or warranty of the product by the US Department of Agriculture or North Carolina Agricultural Research Service, nor does it imply approval to the exclusion of other products that may be suitable.     

Effects of dopamine on background and evoked activity in interneurons of a spinal cord segment isolated from infant rats

The effects of 1·10^–5–1·10^–3 M dopamine on background and evoked interneuronal-activity was investigated during experiments on a spinal cord segment isolated from 11–18-day old infnat rats. Dopamine induced an increase in background firing activity rate in 52.5% and a reduced rate in 42.5% of the total sample of responding cells. Dopamine exerted a primarily inhibitory effect on interneuronal activity invoked by dorsal root stimulation, as witnessed by the reduced amplitude of the postsynaptic component of field potentials in the dorsal horn together with the fact that invoked activity was depressed in 66.7% of total interneurons responding to dopamine and facilitated in only 33.3% of these cells. All dopamine-induced effects were reversible and dose-dependent. Dopamine-induced effects disappeared after superfusing the brain with a solution containing 0–0.1 mM Ca²⁺ and 2 mM Mn²⁺, suggesting that this response is of transsynaptic origin. In other cells the excitatory or inhibitory action of dopamine also persisted in a medium blocking synaptic transmission; this would indicate the possibility of dopamine exerting depolarizing and hyperpolarizing effects on the interneuron membrane directly. Contrasting responses to dopamine in interneurons may be attributed to the presence of different types of dopamine receptors in the spinal cord.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 21, No. 1, pp. 7–16, January–February, 1989.     

Modulation of Aspartate Release by Ascorbic Acid and Endobain E,an Endogenous Na<Superscript>+</Superscript>, K<Superscript>+</Superscript>-ATPase Inhibitor

The isolation of a soluble brain fraction which behaves as an endogenous ouabain-like substance, termed endobain E, has been described. Endobain E contains two Na⁺, K⁺-ATPase inhibitors, one of them identical to ascorbic acid. Neurotransmitter release in the presence of endobain E and ascorbic acid was studied in non-depolarizing (0 mM KCl) and depolarizing (40 mM KCl) conditions. Synaptosomes were isolated from cerebral cortex of male Wistar rats by differential centrifugation and Percoll gradient. Synaptosomes were preincubated in HEPES-saline buffer with 1 mM d-[³H]aspartate (15 min at 37°C), centrifuged, washed, incubated in the presence of additions (60 s at 37°C) and spun down; radioactivity in the supernatants was quantified. In the presence of 0.5–5.0 mM ascorbic acid, d-[³H]aspartate release was roughly 135–215% or 110–150%, with or without 40 mM KCl, respectively. The endogenous Na⁺, K⁺-ATPase inhibitor endobain E dose-dependently increased neurotransmitter release, with values even higher in the presence of KCl, reaching 11-times control values. In the absence of KCl, addition of 0.5–10.0 mM commercial ouabain enhanced roughly 100% d-[³H]aspartate release; with 40 mM KCl a trend to increase was recorded with the lowest ouabain concentrations to achieve statistically significant difference vs. KCl above 4 mM ouabain. Experiments were performed in the presence of glutamate receptor antagonists. It was observed that MPEP (selective for mGluR5 subtype), failed to decrease endobain E response but reduced 50–60% ouabain effect; LY-367385 (selective for mGluR1 subtype) and dizocilpine (for ionotropic NMDA glutamate receptor) did not reduce endobain E or ouabain effects. These findings lead to suggest that endobain E effect on release is independent of metabotropic or ionotropic glutamate receptors, whereas that of ouabain involves mGluR5 but not mGluR1 receptor subtype. Assays performed at different temperatures indicated that in endobain E effect both exocytosis and transporter reversion are involved. It is concluded that endobain E and ascorbic acid, one of its components, due to their ability to inhibit Na⁺, K⁺-ATPase, may well modulate neurotransmitter release at synapses.     

Changes in mediobasal hypothalamic dopamine and GABA release: A possible mechanism underlying taurine-induced prolactin secretion

Summary Taurine (Tau), a putative inhibitory amino acid neurotransmitter, has been shown to stimulate prolactin (PRL) release. Using ovariectomized, estrogen-replaced adult rats we investigated initially the effect of this amino acid, injected by different routes, on PRL secretion in vivo. Tau (100–500 mg/kg) had no effect on PRL release when given i.p.; 15 min after i.c.v. injection of Tau (3moles), a significant increase in serum PRL levels was observed (78 ± 9 ng/ml over basal levels, p < 0.01 vs. controls). In vitro (cultured anterior pituitary cells) PRL release was not affected by a 5 h incubation with Tau (10^–3–10^–8 M). Basal dopamine (DA) or gamma-aminobutyric acid (GABA) output from superfused mediobasal hypothalamic fragments (MBH) was not affected by Tau (10^–3 M or 10^–5 M). However, during stimulation with KCl (50mM), Tau (10^–3 M) significantly lowered DA release, and increased GABA output. It is concluded that Tau acts at a central level to increase PRL secretion, most probably by modulating the hypothalamic release of neurotransmitters controlling lactotroph function.     

Participation of the opioid- and serotonergic systems of the ventrolateral medullary regions in the control of respiratory activity in early postnatal rats

The effects of blockers of opioid and serotonin receptors (naloxone and methisergide, respectively) on the respiratory activity recorded from then. phrenicus of semi-isolated medullo-spinal preparations (SIMSP) were studied in newborn (1-day-old) and 4- to 5-day-old rats. The preparations were superfusedin situ, and inspiratory discharges (ID) were recorded before and after transverse sections of the ventrolateral medullary regions (VLMR) at different levels. Naloxone evoked an increase in the ID frequency in then. phrenicus both at the initial configuration of preparations and after successive transections of the VLMR between theM andS chemosensitive zones and between theS andL zones. The relative intensity of this effect was significantly higher in newborn rats than in 4- to 5-day-old ones. In contrast, methisergide made the ID frequency lower at all configurations of the SIMSP, and this effect was more intensive in 4- to 5-day-old animals. In the course of progressive separations of more rostral VLMR zones, the effects of naloxone and methisergide applications on the ID frequency became weaker. This allows us to suppose that in newborn rats the rostral VLMR portions provide more intensive opioidergic inhibitory control influences on the activity of respiratory networks than those in 4- to 5-day-old animals. At the same time, tonic activating influences from serotonergic VLMR neurons on the mechanisms generating respiratory rhythm are more intensive in 4- to 5-day-old animals than those in newborn ones. Thus, it can be supposed that the levels of maturation of the opioid- and serotonergic neurotransmitter systems, which provide tonic control of respiratory activity generated in the VLMR, are different in newborn and 4- to 5-day-old animals. The problems of how the opioid- and serotonergic mechanisms controlling respiratory rhythm generation are formed in the course of early stages of ontogenetic development are discussed.Neirofiziologiya/Neurophysiology, Vol. 28, No. 1, pp. 62–73, January–February, 1996.     

Effect of N-Methyl-D-Aspartate and Potassium on Striatal Monoamine Metabolism in Immature Rat: An In Vivo Microdialysis Study

Effects of N-methyl-D-aspartate (NMDA) and potassium on 5-day-old rat's brain were examined. We measured extracellular striatal monoamines such as dopamine (DA), 3,4 dihydroxyphenylacetic acid (DOPAC), homovanillic acid (HVA), and 5-hydroxyindole-3-acetic acid (5-HIAA) using intracerebral microdialysis. After 3 h stabilization, pups received varying concentrations of NMDA (1–3 mM) and potassium (200–800 mM) by intrastriatal perfusion for 32 minutes. Increasing the concentration of NMDA and potassium induced a dose related DA increase (p < 0.001), whereas DOPAC, HVA, and 5-HIAA decreased significantly. Five days later the same animals were sacrificed and the weight reduction of their cerebral hemispheres was measured. The weight of the drug perfused side was significantly reduced compared with that of the contralateral one. We examined next the relationship between the level of maximum DA and the relative hemisphere weight reduction. The DA peak was highly correlated with the hemisphere weight reduction (r = 0.70, n = 52, p < 0.001 in the NMDA group, r = 0.83, n = 30, p < 0.001 in the potassium group, respectively). These data show that each treatment alter striatal monoamine metabolism in immature rat brain and that the extracellular DA peak is a potential early indicator to estimate brain injury.     

Phosphite accelerates programmed cell death in phosphate-starved oilseed rape (<Emphasis Type="Italic">Brassica napus</Emphasis>) suspension cell cultures

Phosphite (H₂PO₃^–, Phi) prevents the acclimation of plants and yeast to orthophosphate (Pi, HPO₄^2–) deprivation by specifically obstructing the derepression of genes encoding proteins characteristic of their Pi-starvation response. In this study, we report that prolonged (i.e., 3–4 weeks) culture of Brassica napus L. suspension cells in Pi-deficient (–Pi) media leads to programmed cell death (PCD). However, when the B. napus cells were subcultured into –Pi media containing 2 mM Phi, they initiated PCD within 5 days, with 95% cell death observed by day 9. Dying cells exhibited several morphological and biochemical features characteristic of PCD, including protoplast shrinkage, chromatin condensation, and fragmentation of nuclear DNA. Immunoblotting indicated that B. napus cells undergoing PCD upregulated a 30-kDa cysteine endoprotease that is induced during PCD in the inner integument cells of developing B. napus seeds. It is concluded that PCD in B. napus suspension cells is triggered by extended Pi starvation, and that Phi treatment greatly accelerates this process. Our results also infer that the adaptive value of acclimating at the molecular level to Pi-stress is to extend the viability of –Pi B. napus cell cultures by about 3 weeks.Abbreviations APase acid phosphatase (EC 3.1.3.2) - BnCysP B. napus cysteine proteinase - DAPI 4,6-diamidino-2-phenylindole - FDA fluorescein diacetate - PCD programmed cell death - Phi phosphite - +Pi and –Pi Pi-sufficient and -deficient, respectively - PI propidium iodide - PSI Pi-starvation inducible     

Comparison in changes of glutamate level in the rat nucleus accumbens induced by D1- and D2-dopamine receptors during feeding

The influence of dopamine D1- and D2-like receptors blockage on glutamate level in the n. accumbens of Sprague-Dawly rats during feeding was investigated by in vivo microdialysis combined with HPLC-EC analysis. Food intake resulted in a decrease in extracellular glutamate level. Infusion of D1-like dopamine receptor-blocker (SCH-23390, 0.01 mM) into the n. accumbens did not change this effect. Infusion of D2-like dopamine receptor-blocker (raclopride, 0.1 mM) into the n. accumbens caused an increase in extracellular glutamate level during feeding. The findings suggest, that decrease in extracellular glutamate level in n. accumbens is caused by dopamine D2-like, but not D1-like receptors activation.     

Characterisation of cellobiose dehydrogenases from the white-rot fungi<Emphasis Type="Italic"> Trametes pubescens</Emphasis> and<Emphasis Type="Italic"> Trametes villosa</Emphasis>

Cellobiose dehydrogenase (CDH) is an extracellular haemoflavoenzyme that is produced by a number of wood-degrading and phytopathogenic fungi and it has a proposed role in the early events of lignocellulose degradation and wood colonisation. In the presence of a suitable electron acceptor, e.g. 2,6-dichloro-indophenol, cytochrome c, or metal ions, CDH oxidises cellobiose to cellobionolactone. When screening 11 different Trametes spp. for the formation of CDH activity, all the strains investigated were found to secrete significant amounts of CDH when cultivated on a cellulose-containing medium. Amongst others, Trametes pubescens and Trametes villosa were identified as excellent, not-yet-described, producer strains of this enzyme activity that has various potential applications in biotechnology. CDH from both strains was purified to apparent homogeneity and subsequently characterised. Both monomeric enzymes have a molecular mass of approximately 90 kDa (gel filtration) and a pI value of 4.2–4.4. The best substrates are cellobiose and cellooligosaccharides; additionally, lactose, thiocellobiose, and xylobiose are efficiently oxidised. Glucose and maltose are poor substrates. The preferred substrate is cellobiose with a K _m value of 0.21 mM and a k _cat value of 22 s^–1 for CDH from T. pubescens; the corresponding values for the T. villosa enzyme are 0.21 mM and 24 s^–1, respectively. Both enzymes showed very high activity with one-electron acceptors such as ferricenium, ferricyanide, or the azino-bis-(3-ethyl-benzthiazolin-6-sulfonic acid) cation radical.     

Agonist-dependent attenuation of GTPase activity of G proteins coupled to dopamine receptors in the molluscan nervous system

LowK _m GTPase activity was studied in the purified membranes from theLymnaea stagnalis CNS. Stimulation of GTPase activity of G proteins by dopamine in membrane preparations is transient; it is followed by reduction of the activity. Magnesium ions regulate activity of G proteins; thus, the value of [Mg²⁺] _i is an important factor to be taken into account in investigations of functioning of G proteins. In order to determine the mean physiological level of the neuronal [Mg²⁺] _i , neuronal elements of the molluscan CNS were separated from other cell types. The values of 1.16±0.19 and 1.49±0.08 mM were obtained for [Mg²⁺] _i of the neuronal cells with Mag-fura-2 and Mag-fura-red, respectively. An inhibitory effect of dopamine was displayed within the range of free Mg²⁺ concentrations from 3 μM to 3 mM. GTPase activity was stimulated with Na⁺ in a dose-dependent manner. However, GTPase activity became independent of Na⁺ in the presence of dopamine. Replacing of ATP by 5′-adenylyl imidodiphosphate suppressed the inhibitory effect of dopamine, but did not completely prevent the dopamine influence. The effect of dopamine was dose-dependent and did not decrease after PTX treatment. The inhibitory influence of dopamine on the GTPase activity was reversed by a selective antagonist of the dopamine D₂ receptors, S(−)-sulpiride.