Evidence that transmitter can be released from regions of the nerve cell other than presynaptic axon terminal: axonal release of acetylcholine without modulation

Release of acetylcholine from isolated preganglionic axons of sympathetic nerve trunk (cervical preganglionic sympathetic branch) of the cat was studied. In response to depolarization (KCl, 48.4 mM) acetylcholine was released into the eserinized Krebs solution. This release was shown to be dependent on extracellular Ca2+. Electrical stimulation (1 Hz) enhanced the release of acetylcholine from the isolated axonal preparation. The release by stimulation proved to be tetrodotoxin-sensitive and Ca2+-dependent. Evidence has been obtained that the acetylcholine released from sympathetic nerve trunks originates from the axon and not from Schwann cells: 5 days after section of the nerve, there was no release in response to stimulation. The release of acetylcholine from the axon is unlike that from axon terminals in that the rate of release cannot be enhanced by the inhibition of Na, K-adenosine 5'-triphosphatase (ouabain 2 X 10(-5) M) and cannot be modulated by noradrenaline (10(-6) M) or by morphine. Furthermore, although isolated nerve trunks took up [3H]choline by a hemicholinium-sensitive process, no radioactivity could be released upon electrical stimulation. It is suggested that the release of acetylcholine is not confined to axon terminals, but that it can be non-synaptically released by depolarization from axons provided Ca2+ is present.     

Imaging neuromuscular junctions by confocal fluorescence microscopy: individual endplates seen in whole muscles with vital intracellular staining of the nerve terminals

The mammalian neuromuscular junction has been extensively studied by different methods to understand better the biological aspects of its normal development, ageing and pathological conditions, such as disorders of neuromuscular transmission. In the present report, a new technique is described that combines confocal microscopy with the use of a vital nerve terminal dye (4-Di-2-ASP) and rhodamine-alpha-bungarotoxin to stain postsynaptic acetylcholine receptors in the same endplate. Nerve terminals in the sternomastoid muscles of living adult mice were stained with 4-Di-2-ASP, which labels intracellular compartments of the nerve terminal containing mitochondria. Slides of these muscles were viewed by confocal microscopy and images were stored on magnetic optical discs. This procedure was compatible with subsequent acetylcholine receptor staining with rhodamine-α-bungarotoxin and observation under the confocal microscope. Classical features of the adult neuromuscular junction were displayed, such as the branched-pattern distribution of the nerve terminals and receptors and their complete colocalisation. In addition, nerve fibres from intramuscular nerve branches with their neighbouring cells, nuclei and muscle fibre striations could also be visualised. We conclude that the present technique can complement existing methods of investigation of nerve terminal anatomy and pathology, particularly where preservation of 3-dimensional relationships is required and intracellular disturbances involving mitochondrial organisation, such as ageing or other degenerative disorders, may be present.     

Changes in the biochemical and biophysical parameters of cholinergic synaptic vesicles on transmitter release and during a subsequent period of rest

Synaptic vesicles were isolated on sucrose density gradients from perfused blocks of Torpedo electric organ under varying experimental conditions. Newly synthesized acetylcholine was labelled with [³H]acetate in order to distinguish synaptic vesicles which had been recycled during stimulation-induced transmitter release and, in consequence, had become smaller and denser from the larger, lighter vesicles characteristic of unstimulated tissue. After 1800 pulses at 0.1 Hz, the density of these smaller vesicles increased from a pre-stimulation value of 1.056 g.ml^?1 to 1.067 g.ml^?1, whereas their water space (measured as the space occupied by the permeant solute glycerol), decreased by 34% from 65% to 43% of vesicle volume. During a subsequent 12 h rest period, these changes were partially reversed; water space returned to 52% of control and this change was highly correlated with a decrease in vesicle density and an increase in vesicular acetylcholine. The diameter of vesicles in whole tissue sections showed corresponding changes. An additional 12 h rest period did not lead to further significant recovery, suggesting that the preparation had a limited suitability for following long term processes depending on normal energy metabolism.The results can be explained on the assumption that when vesicles reform after releasing transmitter their core has a lower osmotic pressure than that of fully loaded vesicles. Reloading is accompanied by osmotically induced rehydration.     

Isolation and partial characterization of the tegumental outer membrane of schistosomula of Schistosoma mansoni

Separation of the external membranes from freshly converted mechanical schistosomula of Schistosoma mansoni was achieved by osmotic shock under hypertonic conditions, followed by mechanical shearing and ultracentrifugation. Prior to treatment, the schistosomula were surface labeled by introduction of N-DNP-epsilon-aminocaproylphosphatidylethanolamine molecules into their lipid bilayer followed by anti-DNP antibodies and stained with either 125I-protein-A or ferritin labeled secondary anti-DNP antibodies. This label provided a membrane marker by which the purity of the preparation could be assessed at each stage. Fluorescence staining with FITC-conjugated secondary antibodies prior to treatment revealed that the homogeneously stained membrane of the intact schistosomula became swollen and ruptured after the osmotic shock. The isolated membrane pellet was intensely fluorescent. Electron microscopical examination revealed mostly vesicles, some of them with organized multilayer assembly. The vesicles were ferritin labeled, indicating that they originated from the outer surface membrane of the schistosomula. A 100 fold enrichment in the alkaline phosphatase activity and about 300 fold enrichment in acetylcholinesterase activity in the membrane preparations, as compared to the intact schistosomula, was found. The isolated tegument was analyzed by SDS-polyacrylamide gel electrophoresis. The pattern obtained showed three major bands, of molecular weights 69 000, 45 000 and 12 000 alongside with a large number of minor bands. Immunoprecipitation of the isolated 125I-labeled membrane antigens with antisera from chronically infected mice revealed these three major bands together with three other bands of molecular weight 38 000, 23 000 and 16 000.     

Ouabain enhances release of acetylcholine in the heart evoked by unilateral vagal stimulation

Summary The aim of the study was to elucidate peripheral effects of ouabain on the parasympathetic innervation of the heart, effects that could contribute to the experimentally and clinically well established vagal effect of cardiac glycosides. The experiments were carried out with ouabain concentrations of 3×10^–7 and 10^–6 mol/l, which were considered therapeutic, as they increased force of contraction and did not elicit arrhythmias in incubated chicken atria.In atrial preparations of chickens and guinea-pigs the negative chronotropic and inotropic effects of acetylcholine (ACh) were not altered by 3×10^–7 mol/l ouabain. Resting efflux of ACh from perfused chicken hearts was increased by ouabain from 10 to a maximum of 30 pmol/g min, whereas release of ACh evoked by bilateral vagal stimulation at 3 or 20 Hz for 1 min was unchanged (resting release subtracted). In contrast, release of ACh caused by unilateral vagal stimulation was augmented by ouabain up to 200% of the control. Release by unilateral stimulation (80 pmol/g; 20 Hz) was calculated for each experiment by averaging the releases evoked by consecutive stimulation of the right and left nerves. Ouabain infused for 90 min did not alter the tissue content of ACh (5.5 nmol/g).Within 2 days after unilateral (left) vagal transsection (denervation of cardiac ganglia) the release of ACh evoked by stimulation of the intact nerve (20 Hz) increased from about 80 to 200 pmol/g, whereas the release from the lesioned nerve markedly declined. One day after denervation, ouabain had lost the ability to facilitate the release of ACh evoked by stimulation of the intact nerve, whereas the release by stimulation of the lesioned nerve was still increased.It is concluded that ouabain at therapeutic concentrations increased resting release of ACh but did not influence the mechanism of action potential-evoked release of ACh. The effect of exogenous ACh on sinus node activity was not enhanced by ouabain. The observation that ouabain increased release of ACh caused by unilateral, but not by bilateral vagal stimulation was explained by an increase in the number of activated postganglionic neurons arising from those (contralateral) ganglia that received a subthreshold input from the stimulated vagus nerve.Supported by the Deutsche ForschungsgemeinschaftSome of the results are part of the M.D. theses of M. Feinauer and B. Ullrich     

Reflections on experimental and human pathology of aggression

On the basis of the already proposed distinction between "normal" and "pathological" aggression in laboratory animals, it is essayed an integration of the experimental findings derived from a specific animal model of aggression with the available clinical information on human violent behavior. The too disregarded importance of the role played by the inhibitory control of brain functions, appears instead reportedly essential in the regulation of emotions and behavior, and is of great relevance in explaining the behavioral changes that follow induced or spontaneous impairment of the serotonergic system of the brain. As a matter of fact, the numerous evidences indicate that genetic predisposition and induced or acquired defects of serotonergic inhibitory control greatly concur to precipitate anomalous strong aggression. Interestingly, the cluster of symptoms presented by laboratory rats in consequence of the serotonergic discontrol, has many unexpected similarities with several pathological conditions of man. This fact confers to laboratory experiments the value of a tool aimed at a better understanding of the biological mechanisms which underlie corresponding alterations of human conduct, with special reference to pathological aggression and violence. In this line, some specific nutrient defects and/or malabsorption conditions can be important in the facilitation or elicitation of mental illness including human aggression. In addition, the efficacy and neurochemical action of those substances capable to partially or completely block or prevent experimental aggression, will likely assume equal relevance in the management or prevention of human violent behavior.     

Inhibition of brain acetylcholine biosynthesis by methyldopa in spontaneously hypertensive rats

The formation of 3H-acetylcholine was measured in several brain regions of spontaneously hypertensive (SH) rats following intracerebroventricular injection of 3H-choline. Endogenous acetylcholine (ACh) also was measured and specific activity-time curves for brain ACh generated for control SH rats and for SH rats pretreated with methyldopa (100-200 mg/kg, IV). The relative turnover rates for ACh in several brain regions was estimated from the specific activity-time curves. The turnover rates of ACh in rostral hypothalamus, caudal hypothalamus, medulla oblongata and pons were reduced by 34-54%. Apparently synthesis was inhibited also since methyldopa produced relatively little effect on ACh levels. More rostral brain regions, thalamus-septum, midbrain and striatum, were not significantly affected by methyldopa. Methyldopa also reduced arterial pressure by 53/28 mmHg. The ability of methyldopa to inhibit the function of cholinergic neurons in selective brain regions may be responsible for its common "anticholinergic" side effects. Since centrally-acting anticholinergic drugs reduce arterial pressure in SH rats, it is possible that inhibition of brain ACh synthesis by methyldopa also may contribute to its antihypertensive action in experimental genetic hypertension.     

Muscarine receptor types mediating autoinhibition of acetylcholine release and sphincter contraction in the guinea-pig iris

Summary The potencies of several muscarine receptor antagonists in blocking either the autoinhibition of acetylcholine release or the muscarinic contraction of the sphincter muscle upon acetylcholine release were investigated in the guinea-pig iris. The agonist at pre- or postjunctional muscarine receptors was acetylcholine released upon field stimulation (5.5 Hz, 2 min) of the irides preloaded with ¹⁴C-choline. The stimulation-evoked ¹⁴C-overflow was doubled in the presence of atropine 0.1 mol/l but unaffected by the agonist (±)-methacholine (50 mol/l). Thus, under the present stimulation conditions, the autoinhibition of acetylcholine release on the guinea-pig iris cholinergic nerves was nearly maximally activated. Isotonic contractions of the irides upon field stimulation consisted of a rapid, atropine (0.1 mol/l). peak phase followed by a sustained contraction which involved a cholinergic and a non-cholinergic stimulation of the sphincter muscle. The M₂-selective antagonists methoctramine (10 mol/l) and gallamine (100 µmol/l). increased both the ¹⁴Goverflow and the peak contractions evoked by field stimulation. In contrast, the M₃-selective antagonist hexahydrosiladifenidol (0.1–10 mol/l) failed to affect the evoked ¹⁴C-release but concentration-dependently (1–10 mol/l) reduced the iris contractions. Pirenzepine (10 mol/l) enhanced the evoked ¹⁴C-overflow and inhibited the peak contractions (0.1–10 mol/l; maximal effect at 10 mol/l). The low potency of the antagonist at both receptor sites indicates that an M₁ muscarine receptor is not involved. The results are consistent with the idea of M₂ muscarine receptors mediating autoinhibition of acetylcholine release in the guinea-pig iris and M₃-like receptors inducing the contraction of the sphincter muscle. Send offprint requests to I. T. Bognar at the above address     

脑复素注射液中乙酰胆碱活力的探讨

[目的 ]测定自制的脑复素注射液中乙酰胆碱的活力 .[方法 ]用自制的乙酰胆碱传感器 ,参照阿尼生物化学检查法测定活性 .[结果 ]自制的脑复素注射液和奥地利产脑活素中的乙酰胆碱活力相当于 86 0mmol/L .[结论 ]自制的药中多肽含量高 ,而乙酰胆碱活性也高     

MN9202保护血栓大鼠尾动脉血管作用

观察新二氢吡啶类钙拮抗剂２,６－二甲基－４－（３－硝基苯基）－１,４－二氢－３,５－吡啶二羧酸－３－甲酯－５－正戊酯（ＭＮ９２０２）对血栓形成大鼠尾动脉血管平滑肌及内皮功能的影响。方法大鼠脚趾ｓｃ注射角叉来胶制备血栓模型,并于注射角叉菜胶前２４ｈ,１ｈ及注射后２４ｈｉｐＭＮ９２０２１μＭＯＬ．ＫＧ＾－１,取尾动脉血栓波及不同区域的三段血管,以去甲肾上腺素（ＮＥ）,乙酰胆碱（ＡＣｈ）,亚硝酸钠（Ｎａ