Inhibitory effects of GABA on synaptic excitation in isolated rat hippocampal slices

In research on -aminobutyric acid (GABA) used at different concentrations on the amplitude of EPSP within populations (PEPSP), as recorded from dentrites in isolated hippocampal slices, GABA induced a dose-dependent reversible reduction in PEPSP amplitude with no noticeable signs of desensitization. Highest sensitivity to GABA was shown by PEPSP in hippocampal zone CA1 (threshold concentration: 3×10^–5–2×10^–4 M; (concentration at which the effect equal to 1/2 of maximum occurs) IC₅₀: 5×10^–4–1×10^–3 M). The effects of GABA on PEPSP were not blocked by bicuculline, picrotoxin, or penicillin. Action of GABA on dendritic antidromic population spike (DAPS — postynaptic effects) were slightly diminished by these blockers. Baclofen inhibited PEPSP more powerfully than GABA (threshold concentration: 1×10^–6 M: IC₅₀: 3×10^–6 M), although it only produced a minor reduction in DAPS amplitude even at high concentrations. It is concluded that the inhibitory effect of GABA on PEPSP in hippocampal zone CA1 may be put down mainly to its presynaptic action mediated by GABA_B receptors on axonal terminals of Schaffer collaterals.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 22, No. 5, pp. 627–633, September–October, 1990.     

Ionic mechanisms of the effect of phenibut and gaba not associated with a change in the function of the chloride channels

In experiments on isolated spinal cord of young rats 7–14 days old under conditions of takeoff of the electrical activity of the spinal roots with a sugar bridge, it was established that the GABA-mimetic phenibut induces direct depolarization of the motoneurons. In the same concentration range (10^–5-10^–4 M), GABA has a dual effect. The depolarizing component of the action of GABA in part of the experiments and the depolarizing effect of phenibut in all the experiments are preserved in the presence of picrotoxin (10^–5 M) and under conditions of superfusion of the brain with a solution with a reduced chloride concentration. This depolarizing effect of phenibut, not associated with the activation of GABA_A receptors and chloride channels coupled with them, is unchanged in a medium with Na⁺ deficiency, is enhanced during depolarization of the motoneurons due to an increased concentration of K⁺ (10 mM) and in the presence of imidazole, but is entirely eliminated in a medium with Ca²⁺ deficiency, containing 2 mM Mn²⁺, or in the presence of theophylline (10^–4 M). It is suggested that phenibut, and to some degree, GABA lower the intracellular concentration of cAMP by means of activation of the GABA_B receptors, which leads to blocking of the functional activity of the potential-dependent calcium channels and a decrease in the calcium-activated outflowing potassium currents. The ability to weaken the inflowing calcium currents may also be the basis of the presynaptic inhibiting effect of GABA and GABA-mimetics (phenibut, baclofen, etc.) on the pulsed release of mediators by the axon terminals of catecholaminergic, glutamatergic, and GABA-ergic neurons.A. M. Gor'kii Donetsk Medical Institute. Translated from Neirofiziologiya, Vol. 17, No. 4, pp. 481–489, July–August, 1985.     

Presynaptic inhibition and the participation of GABAB receptors at neuromuscular junctions of the crab Eriphia spinifrons

Presynaptic inhibition exerted by the common inhibitor on the closer and opener muscles and by the specific inhibitor on the opener muscle was investigated in the crab Eriphia spinifrons. In the closer muscle, activation of GABA_B receptors by baclofen reduced the mean quantal content of excitatory junctional currents by about 25%. Blocking GABA_B receptors with CGP 55845 diminished presynaptic inhibition at a similar percentage. GABA_B receptor-mediated presynaptic inhibition is linked to G proteins. Application of pertussis toxin eliminated about 25% of the inhibition exerted by the common inhibitory neuron. GABA_B receptors participate in presynaptic inhibition at release boutons of the slow and the fast closer excitor at a similar percentage. In the opener muscle, presynaptic inhibition of transmitter release from the same endings of the opener excitor was about 15% stronger with the specific inhibitor than with the common inhibitor. About 10% of the presynaptic inhibition produced by either one of the two inhibitors could be abolished by blocking GABA_B receptors. The amplitudes of the excitatory junctional currents in the opener were reduced in the presence of baclofen by about 25%, suggesting that synaptic terminals of the opener excitor are endowed with a similar percentage of GABA_B receptors as terminals of the slow and the fast closer excitors. Baclofen had no effect on postsynaptic inhibition, indicating that GABA_B receptors are not involved in postsynaptic neuromuscular inhibition. Accepted: 8 January 2000     

Crayfish sensory terminals and motor neurones exhibit two distinct types of GABA receptors

Motor neurones of the crayfish walking system display inhibitory responses evoked either by γ-amino butyric acid (GABA) or glutamate, possibly involving the same receptor (Pearlstein et al. 1994). In order to test if this sensibility to both GABA and glutamate was a specific property of crayfish GABA receptors, pharmacological characteristics of GABA-evoked responses in both sensory terminals from CB chordotonal organ and motor neurones of the walking system have been compared. Both receptors are GABA-gated Cl⁻ channels activated by specific GABA_A (muscimol, isoguvacine), GABA_B (3-aminopropyl phosphinic acid), and GABA_C (cis-4-amino crotonic acid) agonists, and blocked by competitive (β-guanidino propionic acid) and non-competitive (picrotoxin) antagonists. They were insensitive to specific GABA_A (bicuculline, SR-95531) and GABA_B (phaclofen) antagonists. Furthermore, in both cases, nipecotic acid and the modulatory drug diazepam had no effect. However, our results demonstrate that GABA receptors of sensory terminals are different from those of motor neurones. GABA-induced desensitisation only occurred in sensory terminals. Moreover, glutamate was shown to activate GABA-gated Cl⁻ channels in motor neurones, but not in sensory terminals. Therefore, GABA is likely to be the endogenous neurotransmitter of presynaptic inhibition in sensory terminals, whereas inhibition between antagonistic motor neurones would be achieved by glutamate. Accepted: 10 July 1996     

Interacting Presynaptic k-Opioid and GABAA Receptors Modulate Dopamine Release from Rat Striatal Synaptosomes

Abstract— The presynaptic regulation of stimulated dopa-mine release from superfused rat striatal synaptosomes by opioids and γ-aminobutyric acid (GABA) was studied. It was found that in addition to dopamine D₂ autoreceptors, calcium-dependent K⁺-stimulated [³H]dopamine release was inhibited through activation of a homogeneous population of k -opioid receptors in view of the potent inhibitory effect of the k -selective agonist U69.593 (EC₅₀ 0.2 nM) and its antagonism by norbinaltorphimine. Neither μ-nor δ-selective receptor agonists affected release of [³H]-dopamine. In addition, GABA potently inhibited the evoked [³H]dopamine release (EC₅₀ 0.4 nM) through activation of GABA_A receptors in view of the GABA-mimicking effect of muscimol, the sensitivity of its inhibitory effect to picro-toxin and bicuculline, and the absence of an effect of the GABA_B receptor agonist baclofen. In the presence of a maximally effective concentration of GABA, U69,593 did not induce an additional release-inhibitory effect, indicating that these receptors and the presynaptic D₂ receptor are colocalized on the striatal dopaminergic nerve terminals. The excitatory amino acid agonists N-methyl-d -aspartate and kainate, as well as the cholinergic agonist carbachol, stimulated [³H]dopamine release, which was subject to k -opioid receptor-mediated inhibition. In conclusion, striatal dopamine release is under regulatory control of multiple excitatory and inhibitory neurotransmitter by activation of colocalized presynaptic receptors for excitatory amino acids, acetylcholine, dopamine, dynorphins, and GABA within the dopaminergic nerve terminals. Together, these receptors locally control ongoing dopamine neurotransmission.     

A Study of the Role of GABAA- and GABAB-Receptors in Presynaptic Inhibition of Primary Afferents in the Spinal Cord of the Frog Rana ridibunda

The role of GABA_A- and GABA_B-receptors in presynaptic inhibition of primary afferent fibers was studied on an isolated preparation of the spinal cord of the frog Rana ridibunda. It is shown that the inhibitory effect of GABA on synaptic transmission from afferent fiber to motoneuron is caused by activation of both GABA_A- and GABA_B-receptors. A temporal correlation (± 5 min) was shown between the blocking action of bicuculline (a specific antagonist of GABA_A-receptors) on primary afferent fiber depolarization (PAD) and its potentiating effect on the excitatory postsynaptic potential (EPSP) at parallel intracellular recording of EPSP in motoneuron and PAD in axons of the dorsal root. As a basis of this correlation, the single GABA_A-receptor mechanism is discussed, which mediates the effect of bicuculline on PAD and EPSP. When a specific agonist of GABA_B-receptor, baclofen, and an antagonist of GABA_B-receptor, 2(OH)-saclofen, were applied, the obtained data indicated an involvement of GABA_B-receptors in inhibition of synaptic transmission from afferent fibers to the motoneuron. Analysis of parameters of the unitary synaptic responses recorded in the control experiments and of their changes under the effect of (– )-baclofen indicates that the inhibitory action caused by activation of GABA_B-receptors develops at the presynaptic level.     

Effects of thiazole analogs of vitamin B1 on neuromuscular transmission and α-latrotoxin-induced transmitter release in skeletal muscles

Thiazole analogs of vitamin B₁ 3-decyloxycarbonylmethyl-4-methyl-5-(2-hydroxyethyl)thiazole chloride (DMHT) and 3-decyloxycarbonylmethyl-4-methylthiazole chloride (DMT) suppress quantum transmitter release from nerve terminals in the frog skeletal muscle. Intraperitoneal administration of these compounds to mice suppresses behavioral motor activity, diminishes motor coordination, and suppresses the corazol-induced seizures. Application of DMHT reduces the -latrotoxin-induced massive transmitter release from nerve terminals in the frog skeletal muscle and suppresses latrotoxin-induced seizures in mice. In model experiments, DMHT blocks Ca²⁺ entry through the ion channels formed by -latrotoxin in a bilayer lipid membrane. It has been suggested that the effectiveness of DMHT and DMT is determined by the presence of a thiazole cycle in their molecules that, among all endogenous biologically active compounds, is possessed only by vitamin B₁ and its metabolites.Neirofiziologiya/Neurophysiology, Vol. 27, No. 5/6, pp. 368–374, September–December, 1995.     

GABAergic Modulation of Striatal Cholinergic Interneurons: An In Vivo Microdialysis Study

Abstract: Striatal cholinergic interneurons have been shown to receive input from Striatal γ-aminobutyric acid (GABA)-containing cell elements. GABA is known to act on two different types of receptors, the GABA_A and the GABA₆ receptor. Using in vivo microdialysis, we have studied the effect of intrastriatal application of the GABA_A-selective compounds muscimol and bicuculline and the GA- BA_B-selective compounds baclofen and 2-hydroxysaclofen, agonists and antagonists, respectively, at GABA receptors, on the output of Striatal acetylcholine (ACh). Intrastriatal infusion of 1 and 10 μmol/L concentrations of the GABA_A antagonist bicuculline resulted in a significant increase in Striatal ACh output, whereas infusion of 1 and 10 /μmol/L concentrations of the GABA_A agonist muscimol significantly decreased the output of Striatal ACh. Both compounds were ineffective in changing the output of Striatal ACh at lower concentrations. Infusion of concentrations up to 100 μmol/L of the GABA_B-selective antagonist 2-hydroxy-saclofen failed to affect Striatal ACh output, whereas infusion of 10 and 100 μmol/L baclofen, but not 0.1 and 1 μmol/L baclofen, significantly decreased the output of Striatal ACh. Thus, agonist-stimulation of GABAA and GABA_B receptors decreases the output of striatal ACh in a dose-dependent fashion, whereas the GABAergic system appears to inhibit tonically the output of striatal ACh via GABA_A receptors, but not via GABA_B receptors. We hypothesize that although GABA_A mediated regulation of striatal ACh occurs via GABA receptors on the cholinergic neuron, the GABA_B mediated effects may be explained by presynaptic inhibition of the glutamatergic input of the striatal cholinergic neuron.     

Whole blood production of thromboxane, prostacyclin and leukotriene B4 after dietary fish oil supplementation in man: effect of vitamin E

12 subjects were given 30 ml/day of a fish oil already stabilized with vitamin E (1.5 IU/g) and other natural antioxidants (fish oil, FO), and the same fish oil supplemented with extra vitamin E (to total 4.5 IU/g) (FO+E), in a randomized double-blind cross-over study. The whole blood production of thromboxane B₂, measured in serum, was reduced after 4 weeks of ingestion of both FO+E (by 47%, P < 0.01) and of FO (by 40%, P < 0.05) whereas 6-keto-PGF_1α increased slightly in both cases, by 4% and 5% respectively, both NS. Leukotriene B₄ production decreased on both FO+E (by 20%, NS) and FO (by 17%, P < 0.05). This study thus showed that a stabilized fish oil had marked effects on eicosanoid production, which may be important for its cardiovascular effect. Further supplementation with vitamin E had no additional effect, indicating that the vitamin E content (1.5 IU/g) in this stabilized fish oil might have been optimal.     

Separation and quantification of the B6 vitamers in plasma and 4-pyridoxic acid in urine of adolescent girls by reversed-phase high-performance liquid chromatography

The vitamin B₆ status of seemingly healthy adolescent girls was determined using several accepted and proposed parameters in an effort to establish guidelines for status evaluation. High-performance liquid chromatography-derived plasma B₆ vitamers (pyridoxal phosphate, PLP; pyridoxine phosphate, PNP; pyridoxamine phosphate, PMP; pyridoxal, PL; pyridoxine, PN; and pyridoxamine, PM) and 4-pyridoxic acid (4-PA) concentrations and urinary 4-PA levels of 28 white adolescent females, 12–15 years, having radiomonitored plasma PLP concentrations and coenzyme stimulation of erythrocyte alanine aminotransferase activities indicative of adequate status were determined. Mean vitamin B₆ and protein intakes were 1.48 mg and 78.3 g. Ranges for plasma B₆ vitamer and 4-PA concentrations (nmol/1) were: PLP, 40.9–122.2; PNP, non-detectable (ND)—16.1; PMP, ND—8.1; PL, ND—15; PN, ND—21.9; PM, ND—17.8; and 4-PA, ND—55.7. PLP was the only vitamer found in plasma of all subjects. Urinary 4-PA concentrations ranged from 0.11 to 2.50 μmol/mmol of creatinine. B₆ vitamer values of these girls should be of use in the establishment of normal ranges for vitamin B₆ status parameters.     

Selective induction of a giant puff in Drosophila hydei by vitamin B6 and derivatives

Vitamin B₆ induces in vivo as well as in vitro the appearance of a puff at region 2–48C in Drosophila hydei. At concentrations of 10^–2 M or lower, region 2–48C is the only region responding to vitamin B₆ provided that oligomycin is present in the incubation medium. Pyridoxal phosphate and pyridoxamine phosphate supplied to medium containing oligomycin induce upon incubation of salivary glands a larger puff at 2–48C. — Puff 2–48C produces large quantities of a unique RNP-product; globular 140–220 Å particles which aggregate to stable complexes of 0.1–0.2 in diameter. Upon continuous in vitro incubation with vitamin B₆, puff 2–48C becomes loaded with these aggregates which have never been observed in any other puff of Drosophila hydei.     

Optimization of a Propionibacterium acidipropionici continuous culture utilizing sucrose

To produce propionic acid and vitamin B₁₂ from sucrose, the strain Propionibacterium acidipropionici NRRL B3569 was selected by screening a number of Propionibacterium strains. The nutrient composition and the fermentation conditions for this strain were optimized in continuous culture. The investigations show that within a concentration range of 30–170 g l^–1 of sucrose in the fermentation medium, no significant substrate inhibition occurred. For the production of propionic acid and vitamin B₁₂, concentrations of 1.5 mg FeSO₄·7H₂O g^–1 dry biomass, 0.75 mg cobalt ions g^–1 dry biomass, 0.3 mg 5,6-dimethylbenzimidazole g^–1 dry biomass, and 12 g yeast extract 1^–1 were necessary additions to the sources of nitrogen, phosphate, and magnesium ions. The extra addition of up to 2.8 g betaine g^–1 dry biomass significantly increases the production of vitamin B₁₂. In the optimization of the pH value, temperature, and aeration, it was established that the conditions for propionic acid production and vitamin B₁₂ production are different. Whereas the optimal production of propionic acid took place under completely anaerobic conditions with a pH value of 6.5 and a temperature of 37°C, optimal vitamin B₁₂ production required a temperature of 40°C and aerobic conditions (0.5 vvm aeration at 100 rpm) with a pH value of 6.5.     

Estradiol protects cultured articular chondrocytes from oxygen-radical-induced damage

Osteoarthritis (OA) is aggravated in menopausal women possibly because of changed serum estrogen levels. Estradiol has been postulated to affect oxidative stress induced by reactive oxygen species (ROS) in articular chondrocytes. We generated ROS in cultured bovine articular chondrocytes by incubating them with combined Fe₂SO₄, vitamin C, and hydrogen peroxide. The release of thiobarbituric-acid-reactive substances (TBARS, lipid peroxidation) and lactate dehydrogenase (LDH, membrane damage) was measured photometrically. Various estradiol doses and vitamin E, serving as control with an established anti-oxidative capacity, were applied either upon each exchange of medium and during radical production (strategy 1) or only during radical production (strategy 2). In chondrocytes incubated according to strategy 1, the production of TBARS and LDH release were significantly suppressed by 10^–10–10^–4 M estradiol or by vitamin E. Under strategy 2, the production of TBARS was significantly suppressed at estradiol concentrations higher than 10^–6 M, whereas LDH release was inhibited at concentrations of 10^–6–10^–4 M. Vitamin E showed no significant effects. As repeated application of estradiol and vitamin E produced the best results, estradiol, like vitamin E, was speculated to accumulate in the plasma membrane and to decrease membrane fluidity resulting in protection against lipid peroxidation (non-genomic effect). Thus, in contrast to the neuroprotective effect of 17-estradiol in supraphysiological doses reported recently, the anti-oxidative potential of estradiol appears to protect articular chondrocytes from ROS-induced damage when the hormone is given repeatedly in a physiological range. Decreased estradiol levels may therefore contribute to menopausal OA in the long term.     

Effect of pH on vitamin B12 binding by transcobalamins

An investigation has been made of the effect of varying pH at constant ionic strength on vitamin B₁₂ binding by human serum and by two transcbalamin fractions separated from serum by gel filtration. It was found that the methodology used had a considerable influence on the results obtained. Genuine effects of pH were largely confined to reduced vitamin B₁₂ binding at very acid and very alkaline pH. However, due to an adsorption artefact involving transcobalamin II, certain methods appeared to demonstrate a marked decrease in vitamin B₁₂ binding between pH 4.5 and pH 10.3, especially in the range of pH 5.3–7.5.     

Pre- and post-synaptic modulation of neuromuscular transmission in smooth muscles by thiazole analogs of vitamin B1

The effects of structural analogs of vitamin B₁, thiazole derivatives with alkyloxycarbonylmethyl substituents at position 3, on neuromuscular transmission were studied in the smooth muscles of the guinea pig gastrointestinal tract. In the smooth muscles of the stomach, the studied compounds depressed excitatory cholinergic neuromuscular transmission. In the case of 3-hexyl-, 3-decyl-, and 3-dodecyloxycarbonylmethyl-4-methyl-5-(2-hydroxyethyl)-thiazole chlorides this effect was due to their presynaptic action, while in the case of 3-menthyloxycarbonylmethyl-4-methyl-5-(2-hydroxyethyl)thiazole chloride it was due to the block of muscarinic acetylcholine receptors in smooth muscle fibers. In the circular smooth muscles of the distal colon, 3-decyloxycarbonylmethyl-4-methyl-5-(2-hydroxyethyl)thiazole chloride blocked non-adrenergic inhibitory synaptic potentials (ISP) apparently through interaction with the ATP-sensitive acetylcholine receptors. In contrast, 3-hexyloxycarbonylmethyl-4-methyl-5-(2-hydroxyethyl)thlazole chloride enhanced postinhibitory excitation, without changing the ISP amplitude. Possible ways of pre- and post-synaptic modulations of neuromuscular transmission by thiazole derivatives are discussed. It has been suggested that the effects of these compounds are due to similarity of their structures to the structure of vitamin B₁.Neirofiziologiya/Neurophysiology, Vol. 27, No. 5/6, pp. 375–386, September–December, 1995.     

Effects of inadequate vitamin E and/or selenium nutrition on the release of arachidonic acid metabolites in rat alveolar macrophages

Effects of vitamin E and/or selenium (Se) deficiency on the secretion of arachidonic acid metabolites by zymosan-stimulated pulmonary alveolar macrophages (AM) were examined using cells from male Long-Evans hooded rats fed torula-yeast based diets with or without the supplementation of vitamin E (150 IU/kg) or Se (0.5 mg/kg). Alveolar macrophages obtained by lavage were purified by adherence and cultured for 4 h in Hankś balanced salt solution containing bovine serum albumin (0.1%) and zymosan (300 μg/ml). The arachidonic acid metabolites present in the culture supernatant were measured by radioimmunoassay. Altered vitamin E and Se nutrition had no effect on the number of cells or cell types recovered from the pulmonary airways. Alveolar macrophages derived from animals fed on diets deficient in vitamin E or Se or both nutrients secreted higher levels of prostaglandins E₂ and thromboxane B₂. Levels of both 5-hydroxyeicosatetraenoic acid and leukotriene B₄ were significantly increased only in the group fed the diet adequate in Se but deficient in vitamin E. Our data suggest that vitamin E and Se might play an important role to control the levels of several physiologically and pathologically important arachidonic acid metabolites.     

Physical Link and Functional Coupling of Presynaptic Calcium Channels and the Synaptic Vesicle Docking/Fusion Machinery

N- and P/Q-type calcium channels are localized in high density in presynaptic nerve terminals and are crucial elements in neuronal excitation–secretion coupling. In addition to mediating Ca²⁺ entry to initiate transmitter release, they are thought to interact directly with proteins of the synaptic vesicle docking/fusion machinery. As outlined in the preceding article, these calcium channels can be purified from brain as a complex with SNARE proteins which are involved in exocytosis. In addition, N-type and P/Q-type calcium channels are co-localized with syntaxin in high-density clusters in nerve terminals. Here we review the role of the synaptic protein interaction (synprint) sites in the intracellular loop II–III (L_II–III) of both _1B and _1A subunits of N-type and P/Q-type calcium channels, which bind to syntaxin, SNAP-25, and synaptotagmin. Calcium has a biphasic effect on the interactions of N-type calcium channels with SNARE complexes, stimulating optimal binding in the range of 10–20 M. PKC or CaM KII phosphorylation of the N-type synprint peptide inhibits interactions with native brain SNARE complexes containing syntaxin and SNAP-25. Introduction of the synprint peptides into presynaptic superior cervical ganglion neurons reversibly inhibits EPSPs from synchronous transmitter release by 42%. At physiological Ca²⁺ concentrations, synprint peptides cause an approximate 25% reduction in transmitter release of injected frog neuromuscular junction in cultures, consistent with detachment of 70% of the docked vesicles from calcium channels based on a theoretical model. Together, these studies suggest that presynaptic calcium channels not only provide the calcium signal required by the exocytotic machinery, but also contain structural elements that are integral to vesicle docking, priming, and fusion processes.     

Effects of Ca2+ and vitamin E on posttranslational regulation of acetylcholine receptor expression in the somata of identified molluscan neurons

The effects of Ca²⁺ and vitamin E (-tocopherol) on acetylcholine (Ach)-induced Cl^– currents in LP11 and RBc4 neurons of the snail Helix pomatia have been studied. Injection of Ca²⁺ into the cells and application of vitamin E (10^–5 mole/liter) induced the appearance of potentiation of Ach-induced currents in membrane parts more remote from the axon than the Ach-sensitive regions in the control. The Hill coefficient (n) for such Ach receptors was equal to 0.8, unlike 1.8 for Ach receptors active in the control. Arachidonic acid (10^–5 mole/liter) and phorbol ester TPA (10^–6 mole/liter) inhibited Ach responses, while oleoylacetyglycerol (10^–6 mole/liter) produced no effect. Calmidazolium (10^–6 mole/liter) decreased the effects of Ca²⁺ and vitamin E on Ach responses, while nordihydroquiaretic acid (5 · 10^–6 mole/liter) enhanced the modulating effect of vitamin E and weakened that of arachidonic acid. It is suggested that the expression of Ach receptors activated by Ca²⁺ and vitamin E is mediated through posttranslational mechanisms, since cycloheximide and actinomycin D, inhibitors of protein synthesis, did not influence the effects of C²⁺ and vitamin E. The mechanisms responsible for the stimulating effects of Ca²⁺ and vitamin E are discussed.Translated from Neirofiziologiya, Vol. 25, No. 1, pp. 31–39, January–February, 1993.     

Enrichment of some B-vitamins in plants with application of organic fertilizers

A review of the literature showed that plants grown with organic fertilizers often contain higher concentrations of vitamins B₁ (thiamin) and B₁₂ (cyanocobalamin) as compared with plants grown with inorganic fertilizers. Since plant roots were recently shown to be able to absorb B₁ and B₁₂, it was thus suspected that organic fertilizers (such as manure of diverse sources or sewage sludges which often contain relatively high concentrations of several vitamins) introduce additional vitamins into the soil which in turn leads to increased vitamins in the plants. This possibility was studied by measuring the B₁₂ content in the seeds of soybean and barley and in the leaves of spinach plants grown in soils amended with pure B₁₂ or cow dung (which is naturally rich in B₁₂). The addition of pure B₁₂ or cow dung did not alter the B₁₂ content in the soybean seeds but significantly increased that in the barley kernels and in the spinach leaves. For example, the addition of cow dung at the rate of 10 g kg^–1 increased the B₁₂ content in barley kernels by more than threefold (from 2.6 to 9.1 ng g^–1 DW) and in spinach leaves by close to twofold (from 6.9 to 17.8 ng g^–1 DW). Long-term addition of organic fertilizers to the soil also significantly increased the soil content of this vitamin. Since plants cannot synthesize B₁₂ and thus plant foods are normally fully devoid of (or have very low concentrations of) this vitamin, the finding that plants grown with organic fertilizers may contain relatively higher concentrations of this vitamin may have nutritional consequences in that the consumption of these plants by humans would inadvertently increase their intake of this vitamin. This may be of special benefit to people living by choice or by necessity on strict vegetarian diets who are known to be in danger of B₁₂ deficiency.     

Pharmacological study of inhibited frog olfactory bulb glomerular input produced by a puff of air on the olfactory mucosa

The effects of applying 4-aminopyridine (10^–2 M), aminooxyacetic acid (AOAA — 10^–4–10^–3 M), -alanine (10^–3–10^–2 M), and bicuculline (10^–5, 10^–4 M) to the intact frog olfactory bulb were investigated. Having measured inhibition of orthodromic potential postsynaptic components produced either by a puff of air on the olfactory mucosa (OB input inhibition) or by single electrical stimulation of the olfactory nerve (postsynaptic inhibition) or by single electrical stimulation of the olfactory nerve (postsynaptic inhibition), it was found that 4-aminopyridine greatly intensified postsynaptic inhibition but strongly reduced that of OB input; inhibition of the latter was raised by AOAA or bicuculline and decreased by -alanine. These substances failed to exert any consistent, clear-cut effects on postsynaptic inhibition. Findings would support the hypothesis that OB input inhibition produced by a puff of air on the olfactory mucosa could occur as a result of GABA release from glial cells and subsequent binding of GABA to presynaptic GABA_B-receptors in glomeruli.M. V. Lomonosov Moscow State University. Translated from Neirofiziologiya, Vol. 19, No. 1, pp. 12–20, January–February, 1987.