The zinc iodide-osmium (ZIO) reaction in the central nervous system: localization and relations to functional activity.

The fine structural characteristics of ZIO reaction was studied in the cerebral and cerebellar cortex and olfactory bulb of the rat and in synaptosomes prepared from rat cerebellar cortex. It was concluded that: 1. Organelles of different nerve cell types exhibit different ZIO reactions provided that the impregnation was carried out under standardized conditions. 2. 6...10 times more synaptic vesicles were stained by ZIO in the inhibitory terminals than in the excitatory ones. 3. ZIO positivity was found in all types of synaptosomes prepared from cerebral cortex. Following electrical or chemical (KCl) depolarization there was a decrease in the number of ZIO positive synaptic vesicles, which decrease was directly proportional to the parameters of stimulation. 4. By x-ray microanalysis Os, Zn and Ca were consistently detected in the ZIO precipitates. Iodine, however, could not always be found. After stimulation the presence of Ca was observed even in those synaptosomes in which the ZIO reaction product was absent. 5. On the basis of the staining characteristics the reaction, under standard conditions, can reflect certain functional states of the nerve terminals.     

Coexistence and corelease of cholinergic and peptidergic transmitters in frog sympathetic ganglia

Both acetylcholine (ACh) and a peptide that resembles luteinizing hormone-releasing hormone (LHRH) serve as transmitters in sympathetic ganglia of the bullfrog. Although ACh is contained and released from both preganglionic B fibers, which form synaptic contacts with only B cells in the ganglia, and preganglionic C fibers, which are in synaptic contact with C cells only, the LHRH-like peptide is contained and released exclusively from preganglionic C fibers. The same preganglionic C fibers appear to supply both ACh and the LHRH-like peptide because the thresholds for the cholinergic fast excitatory postsynaptic potential (EPSP) correlate well with the thresholds for the peptidergic late slow EPSP recorded in the same C cell. Further, anatomical studies showed that almost all nerve terminals on C cells contained the LHRH-like peptide. Some of these same terminals must also contain and release. ACh, mediating the cholinergic fast EPSPs with millisecond synaptic delays. Therefore at least some, if not all, terminals of preganglionic C fibers contain and release both cholinergic and peptidergic transmitters.     

A CHOLINERGIC COMPONENT IN THE INNERVATION OF THE LONGITUDINAL SMOOTH MUSCLE OF THE GUINEA PIG VAS DEFERENS : The Fine Structural Localization of Acetylcholinesterase

Acetylcholinesterase (AChE) has been detected on the plasma membrane of about 25% of the axons in the longitudinal smooth muscle tissue of guinea pig vas deferens. These axons are presumably cholinergic. No enzyme was detected in the remaining 75% of axons. These axons are presumably adrenergic. The plasma membrane of the Schwann cells associated with the cholinergic axons also stained for AChE. Some axon bundles contained only cholinergic or adrenergic axons while others contained both types of axon. When a cholinergic axon approached within 1100 A of a smooth muscle cell, there was a patch of AChE activity on the muscle membrane adjacent to the axon. It is suggested that these approaches are the points of effective transmission from cholinergic axons to smooth muscle cells. Butyrylcholinesterase activity was detected on the plasma membranes of all axons and smooth muscle cells in this tissue.     

Action of a beta-bungarotoxin on autonomic ganglia and adrenergic neurotransmission.

A beta-bungarotoxin was isolated from the venom of Bungarus multicinctus by column chromatography on Sephadex G-50 and SP-Sephadex. The toxin produced presynaptic effects on neuromuscular transmission with characteristics similar to those described by others. In a sympathetic ganglion, the toxin increased spontaneous acetylcholine (ACh) release and decreased ACh release evoked by preganglionic nerve stimulation. The toxin did not block the response of isolated ileum to cholinergic nerve stimulation, did not block the release of noradrenaline from the adrenergic nerve terminals of a nictitating membrane preparation, and did not alter the responses of smooth and cardiac muscle preparations to noradrenaline. It is suggested that the specificity of beta-bungarotoxin for certain nerve terminals is related either to selective binding of the toxin or to the selective presence of a necessary substrate for its action. An attempt to show selective binding of 125I-toxin to cholinergic nerve terminals in skeletal muscle was not successful.     

胎儿胃肌间神经节胆碱能神经元的研究

本文采用胆碱乙酰转移酶（ＣｈＡＴ）和乙酰胆碱酯酶（ＡＣｈＥ）酶组织化学方法和显微图像分析技术对３２周～４０周胎儿胃底部、胃体部、胃窦部及胃幽门管部的肌间神经节内胆碱能神经元进行光镜定位定量观察。结果表明：胆碱能神经元的分布,细胞大小及酶活性在胃各部有所不同,胆碱能神经元数量由胃底至幽门管部逐渐递增;胃痛和胃体部以中小型神经元为主,胃窦和胃幽门管部以大中型神经元为主;胃各区酶活性强度不一,胃底部和胃体部酶活性显著高于胃幽门部,胃体部酶活性最强。提示胃各部的运动功能和代谢功能有所不同。     

The zinc iodide-osmium tetroxide (ZIO) reaction on nerve endings in the median eminence of the rat under normal and experimental conditions

Summary The reaction of nerve endings in the median eminence of the rat to zinc iodide-osmium tetroxide (ZIO) staining was examined electron microscopically under normal and experimental conditions. The experimental condition of catecholamine exhaustion in the nerve endings was induced by the administration of H44/68 and reserpine. Vesicles in the terminals of catecholaminergic nerves reacted similarly to ZIO staining in both normal and experimental material. The majority of synaptic vesicles in various terminals gave a positive ZIO reaction. The neurosecretory elementary granules, however, failed to react with ZIO. On the other hand, some nerve terminals in the external layer of the median eminence showed a strong positive reaction in the cytoplasmic matrix, in mitochondria as well as in synaptic vesicles. These findings strongly suggest that the ZIO-positive substance in nerve terminals is not the transmitter itself, i.e. the monoamine, but rather represents a range of substances commonly found in various kinds of synaptic vesicles and is probably proteinaceous in nature. A brief discussion is also given on the difference in ZIO reactivity between neurosecretory elementary granules and small vesicles in the hypothalamo-hypophyseal tract.This work was supported in part by a research grant from the Ministry of Education, Japan     

CHOLINE UPTAKE BY CHOLINERGIC NEURON CELL SOMAS

The cellular compartments of ciliary ganglia take up choline by a single, saturable process with K_m=7.1 × 10^?5 M and V_max= 4.66 pmol/min per ganglion: Denervation of the ganglia and the resultant degeneration of nerve terminals caused no significant decrease of the rate of accumulation of choline by the ganglia. This indicates that the measured uptake is by the postganglionic ncurons and nonneural elements (NNE: glial and connective tissue cells) in the ganglia. This uptakc is not dependent on metabolic energy and is not affectcd by lowcring Na⁺ or raising K⁺ concentrations in the incubating mcdia but is depressed in the presence of ouabain and hemicholinium-3. The presence or Na⁺-dependent. rapidly saturable uptake in the preganglionic nerve terminals which is not detectablc kinetically is, however, inferred from a decrease in ACh synthesis in dcncrvatcd prcparations and a similar decrcasc in intact ganglia incubated in low Na+ solution.     

Development of adrenergic neurons in uiuo: inhibition by ganglionic blockade

T he N ormal biochemical maturation of postsynaptic adrenergic neurons in mouse and rat superior cervical ganglion depends upon an intact preganglionic innervation (B lack , H endry and I versen , 1971a, 1972; T hoenen , S aner and K eitler , 1972). In recent studies tyrosine hydroxylase, the rate-limiting enzyme in norepinephrine biosynthesis (L evitt , S pector , S joerdsma and U denfriend , 1965), with localization to adrenergic neurons in the ganglion (B lack , H endry and I versen , 1971b), was used to monitor maturation of these cells. The developmental increase in tyrosine hydroxylase activity occurred simultaneously with the appearance of ganglionic synapses and was prevented by transection of the preganglionic nerve trunk (B lack , H endry and I versen , 1971a). These observations suggest that presynaptic cholinergic nerve terminals regulate the biochemical development of postsynaptic neurons in the superior cervical ganglion. The mechanism(s) by which presynaptic cholinergic terminals regulate postsynaptic development has not been elucidated. Such trans-synaptic regulation may be dependent on normal impulse transmission and/or may involve other unidentified, trophic factors. The results presented in the present communication suggest that normal development of ganglionic tyrosine hydroxylase activity is dependent on depolarization of postsynaptic adrenergic neurons.     

Chemical profile of vagal preganglionic motor cells innervating the airways in ferrets: the absence of noncholinergic neurons.

In ferrets, we investigated the presence of choline acetyltransferase (ChAT), vasoactive intestinal peptide (VIP), and markers for nitric oxide synthase (NOS) in preganglionic parasympathetic neurons innervating extrathoracic trachea and intrapulmonary airways. Cholera toxin beta-subunit, a retrograde axonal transganglionic tracer, was used to identify airway-related vagal preganglionic neurons. Double-labeling immunohistochemistry and confocal microscopy were employed to characterize the chemical nature of identified airway-related vagal preganglionic neurons at a single cell level. Physiological experiments were performed to determine whether activation of the VIP and ChAT coexpressing vagal preganglionic neurons plays a role in relaxation of precontracted airway smooth muscle tone after muscarinic receptor blockade. The results showed that 1) all identified vagal preganglionic neurons innervating extrathoracic and intrapulmonary airways are acetylcholine-producing cells, 2) cholinergic neurons innervating the airways coexpress ChAT and VIP but do not contain NOS, and 3) chemical stimulation of the rostral nucleus ambiguus had no significant effect on precontracted airway smooth muscle tone after muscarinic receptor blockade. These studies indicate that vagal preganglionic neurons are cholinergic in nature and coexpress VIP but do not contain NOS; their stimulation increases cholinergic outflow, without activation of inhibitory nonadrenergic, noncholinergic ganglionic neurons, stimulation of which induces airway smooth muscle relaxation. Furthermore, these studies do not support the possibility of direct inhibitory innervation of airway smooth muscle by vagal preganglionic fibers that contain VIP.     

IMMUNOLOGICAL APPROACH TO THE CHARACTERIZATION OF CHOLINERGIC VESICULAR PROTEIN

Abstract— Rabbit antisera have been prepared against whole cholinergic vesicles purified from the electric organ of Torpedo marmorata. The sera contain two major and two minor precipitating systems against membranous proteins, as revealed by Ouchterlony diffusion. No immunoprecipitation could be detected against the soluble vesicle protein constituent 'vesiculin'. Fractions from cephalopod, amphibian and mammalian neural tissue were shown to exhibit no immunochemical homology with Torpedo cholinergic vesicle proteins.     

Modulation by GABA of neuroplasticity in the central and peripheral nervous system

Apart from being a prominent (inhibitory) neurotransmitter that is widely distributed in the central and peripheral nervous system, -aminobutyric acid (GABA) has turned out to exert trophic actions. In this manner GABA may modulate the neuroplastic capacity of neurons and neuron-like cells under various conditions in situ and in vitro. In the superior cervical ganglion (SCG) of adult rat, GABA induces the formation of free postsynaptic-like densities on the dendrites of principal neurons and enables implanted foreign (cholinergic) nerves to establish functional synaptic contacts, even while preexisting connections of the preganglionic axons persist. Apart from postsynaptic effects, GABA inhibits acetylcholine release from preganglionic nerve terminals and changes, at least transiently, the neurochemical markers of cholinergic innervation (acetylcholinesterase and nicotinic receptors). In murine neuroblastoma cells in vitro, GABA induces electron microscopic changes, which are similar in principle to those seen in the SCG. Both neuroplastic effects of GABA, in situ and in vitro, could be mimicked by sodium bromide, a hyperpolarizing agent. In addition, evidence is available that GABA via A- and/or B-receptors may exert direct trophic actions. The regulation of both types of trophic actions (direct, receptor-mediated vs. indirect, bioelectric activity dependent) is discussed.Special issue dedicated to Dr. Claude Baxter.     

ACETYLTRIETHYLCHOLINE: A CHOLINERGIC FALSE TRANSMITTER IN CAT SUPERIOR CERVICAL GANGLION AND RAT CEREBRAL CORTEX

The accumulation and metabolism of [¹⁴C]triethylcholine by cat superior cervical ganglia [rested or stimulated (20 Hz)] and by rat cerebral cortex minces was measured. In ganglia, preganglionic nerve stimulation increased the accumulation (2.4 fold) and the acetylation (5.7 fold) of triethylcholine; however the depletion of the ganglion's acetylcholine content was 9.5 times greater than the amount of acetyltriethylcholine synthesized. In the presence of eserine, neither stimulated nor rested ganglia synthesized any extra (surplus) acetyltriethylcholine. It is concluded that the rate-limiting step in acetyltriethylcholine synthesis is the acetylation of triethylcholine by choline acetyltransferase. Subsequent preganglionic nerve stimulation of ganglia, which had been stimulated during the exposure to [¹⁴C]-triethylcholine, caused the increased release of only acetyltriethylcholine; the release was frequency-dependent, required the presence of Ca²⁺, and was blocked by increasing the ratio of Mg²⁺/Ca²⁺ in the perfusion fluid. All of the acetyltriethylcholine which had been accumulated was available for release. Rat cerebral cortex also accumulated triethylcholine and acetylated about 3% of the accumulated choline analogue. Subsequent stimulation by high K⁺ (46 mM)-atropine (3 μM) caused the increased release of acetyltriethylcholine from the cortex and this release required the presence of Ca²⁺. Triethylcholine can therefore form a cholinergic false transmitter in the cat superior cervical ganglion and the rat cerebral cortex.     

EFFECTS OF CALCIUM-CONTAINING FIXATION SOLUTIONS ON CHOLINERGIC SYNAPTIC VESICLES

Calcium (Ca)-containing fixation solutions applied to slices of electric organ of the electric ray, Narcine brasiliensis, have been shown to have three distinct ultrastructural effects on cholinergic synaptic vesicles of the nerve terminals. (a) An electron-dense particle (EDS) is observed within the vesicle; the particle is seen in unosmicated, unstained tissues and can be removed from thin sections by Ca-chelating agents. It is concluded that the EDS represents Ca bound by the vesicle. It is suggested that the bound ATP of the vesicle provides anionic Ca binding sites. (b) The vesicle membrane tends to ‘crinkle’ or collapse depending on the concentration of the other components of the fixative solution. The ‘crinkling’ or collapse are largely reversed by a wash step in the absence of Ca. (c) The presence of Ca results in the appearance of a population of vesicles which form characteristic fusions or ‘tight’ junctions with the terminal membrane. This appears to be morphological evidence for the proposal, which has been frequently put forward, that Ca facilitates such a fusion before discharge of vesicle-bound transmitter. With the discovery that the use of Ca-containing fixatives leads to the demonstration of a subpopulation of synaptic vesicles fused to the terminal membrane, we are led to propose that this is the ultrastructural location of the newly synthesized acetylcholine which has been shown by others to be preferentially released by stimulation.     

Ultrastructure of cholinergic innervation in the cirrhotic liver in guinea pigs. Neurohistochemical and ultrastructural study

Hepatic cirrhosis was induced in guinea pigs by ligation of the common bile duct and innervation of the liver was studied by fluorescence histochemistry (glyoxylic acid method), acetylcholinesterase (AChE) neurohistochemistry (modified Karnovsky and Roots method), and transmission electron microscopy. In control animals the adrenergic terminals showed connections with endothelial cells, hepatocytes and fat-storing cells, but no cholinergic terminals were evident. Cirrhosis was present 6 weeks after the bile duct ligation and marked fibrosis, accompanied by bile duct proliferation, was evident in the portal areas. Numerous AChE-positive nerve fibers traversed the collagenous bundles in the fibrotic areas, and cholinergic terminals formed close contacts with fibroblasts. Each axon terminal was found to contain numerous small coreless vesicles and AChE-reaction products were confirmed in the space between a nerve terminal and a fibroblast. In contrast, fluorescence adrenergic nerve fibers and their terminals remained unchanged. This study demonstrates that parasympathetic cholinergic innervation participates in some stages in the development of hepatic cirrhosis.     

猫基底前脑胆碱能皮质投射神经元区的P物质样免疫反应神经元

应用免疫组织化学和邻位切片法,研究了猫基底前脑胆碱能皮质投射神经元区的Ｐ物质样免疫反应神经元的分布特征,及其与胆碱乙酰化酶样免疫反应神经元的分布关系,从内侧隔核至Ｍｅｙｎｅｒｔ基底核,２种神经元分布范围相近,且形态,大小相似。但在邻位切片,未见分别呈此二免疫反应的同一神经元的对应剖面。Ｐ物质样免疫反应神经元在内侧隔核和斜角带核数量较多,但在基底核明显减少,在Ｃｈ４间质部及腹侧苍白球连合下部仅为偶见     

Studies on the functional role of alpha-adrenoceptors in the cardiac sympathetic ganglia of the dog.

Inhibitory alpha-adrenoceptors were studied in cardiac ganglia of pentobarbital-anesthetized dogs. Blockade of alpha 1- or alpha 2-adrenoceptors augmented preganglionic nerve stimulation induced tachycardia without altering the response to postganglionic nerve stimulation. The effect produced by blockade of ganglionic alpha 1-adrenoceptors with terazosin had different frequency-response characteristics from, was of smaller magnitude than, and was additive with the effect produced by blockade of ganglionic alpha 2-adrenoceptors with rauwolscine. The response to activation of ganglionic nicotinic cholinergic receptors in the absence of electrical stimulation of the preganglionic nerve was not affected by blockade of either alpha 1- or alpha 2-adrenoceptors. The response to nicotinic cholinergic receptor activation during periods of continuous preganglionic nerve stimulation was augmented following blockade of alpha 2-adrenoceptors but unaffected by alpha 1-adrenoceptor blockade. These results suggest that there are two different inhibitory pathways involving alpha-adrenoceptors in mammalian sympathetic ganglia and provide evidence that these inhibitory pathways are operative under the experimental conditions of ganglionic transmission.     

Zinc-iodide-osmium procedures as markers of subcellular structures. I. Standardization of staining of transmitter containing vesicles

In the present investigation certain stain properties of the zinc iodide-osmium tetroxide mixture were investigated. It was observed that the type of reaction of certain cell structures with a ZIO mixture largely depended on several factors, namely, the pH of the mixture, aldehyde prefixation and type (s) of buffer (s) used. The standardization of these parameters led to the development of four procedures, each one of them with distinct stain properties. A nomenclature to designate these methods is proposed. The following procedures were applied to material processed for electron microscopy: 1. C.4.4-ZIO-4 degree -18 h: the ZIO mixture was prepared in citric acid-disodium phosphate buffer pH 4.4 and the tissue was incubated at 4 degree C during 18 H; 2. K-P.7.4-C.4.4-ZIO-4 degree -18 h: the tissue was prefixed in Karnovsky fixative prepared in phosphate buffer pH 7.4 and then incubated in C.4.4-ZIO at 4 degree C during 18 h; 3. V.7.4-ZIO-4 degree -18 H: the ZIO was prepared in veronal buffer pH 7.4 and incubation of the tissue was at 4 degree during 18 H; 4.K-P.7.4-V.7.4-ZIO-4 degree -18 h: the tissue was prefixed in Karnovsky fixative prepared in phosphate buffer pH 7.4 and then incubated in V.7.4-ZIO at 4 degree C during 18 h. The chromaffin cells and the cholinergic endings of the rat adrenal medulla and the vas deferens nerves were studied. C.4.4-ZIO-4 degree -18 h: This procedure stained adrenaline and noradrenaline storing granules. Synaptic vesicles at cholinergic endings were not stained. K-P.7.4.4-ZIO-4 degree -18 h: One type of chromaffin granule (probably storing noradrenaline) and both, the small and the granulated synaptic vesicles of cholinergic endings were deeply stained with this method. The aminergic fibres of the vas deferens reacted synaptic vesicles at cholinergic endings were not stained. K-P.7.4.4-ZIO-4 degree -18 h: One type of chromaffin granule (probably storing noradrenaline) and both, the small and the granulated synaptic vesicles of cholinergic endings were deeply stained with this method. The aminergic fibres of the vas deferens reacted synaptic vesicles at cholinergic endings were not stained. K-P.7.4.4-ZIO-4 degree -18 h: One type of chromaffin granule (probably storing noradrenaline) and both, the small and the granulated synaptic vesicles of cholinergic endings were deeply stained with this method. The aminergic fibres of the vas deferens reacted negatively. V.7.4-ZIO-4 degree -18 H: Both types of chromaffin granules and only the small synaptic vesicles of cholinergic endings were revealed with this procedure. In addition, some compartments of the Golgi complex were also stained. K-P.7.4-V.7.4-ZIO-4 degree -18 h: This method did not stain adrenaline and noradrenaline storing granules. Cholinergic synaptic vesicles appeared stained. However, the most striking stain property of this procedure was the staining of many cell organelles. The probable mechanisms by which different factors affect the ZIO reaction are discussed.     

THE PREPARATION OF CHOLINERGIC SYNAPTOSOMES FROM BOVINE SUPERIOR CERVICAL GANGLIA

—A method is described for the preparation of relatively pure cholinergic synaptosomes from bovine cervical sympathetic ganglia. After dispersion of the tissue by incubation with collagenase, differential centrifugation yielded a crude synaptosomal fraction (P₂), which was further purified by centrifugation on sucrose or Ficoll-sucrose density gradients. Assay of acetylcholine and choline acetyltransferase, and electron microscopy confirmed that presynaptic nerve endings survived the incubation procedure, appeared in the P₂ fraction and thereafter sedimented to a density of approx. 1.13 in sucrose and 1.06 in Ficoll-sucrose. The washed P₂ fraction had an acetylcholine content of 2.3 nmol/mg of protein, which is at least three times higher than the corresponding fraction from brain.     

豚鼠肠系膜下神经节细胞电活动与结肠运动的关系

在豚鼠肠系膜下神经节(IMG)及其支配的结肠段联合标本上,对IMG细胞内电位与肠段纵肌或环肌舒缩活动进行了同步记录。实验结果表明:(1)肠段预置张力为零时,约50％IMG细胞有自发的快兴奋性突触后电位(EPSP)活动,切断结肠神经或以筒箭毒(50μmol/L)灌流IMG后消失;(2)筒箭毒或低钙高镁溶液阻断神经节传递时,环肌节律性收缩幅度增大,节律变慢,但对纵肌节律性收缩无明显影响,(3)串刺激节前神经,在IMG细胞引起一串快EPSP或动作电位并常跟随迟慢的EPSP,同时,纵肌在0.1-0.2s潜伏期后出现迅速的、时程基本与动作电位串一致的舒张波,后者在筒箭毒灌流IMG后消失,而环肌运动可见舒张、舒张波延长或收缩波增大。结果提示:IMG不仅中继经典的胆碱能传出功能,还参与以胆碱能传递为中介的肠-肠反射,该反射活动的传出效应主要在于抑制环肌收缩。     

大鼠脑室内注射氨甲酰胆碱对肾钠,钾,水排出的影响

在麻醉大鼠侧脑室注射胆碱能激动剂氨甲酰胆碱（ＣＢＣ）引起显著的促钠排泄、促钾排泄和利尿反应（Ｐ＜０．０５）,其中促钠排泄反应与剂量之间呈量效关系（ｒ＝０．９９９７,Ｐ＜０．０５）。由脑室注射ＣＢＣ（２．７４×１０－３μｍｏｌ）引起的上述反应可以被胆碱能Ｍ受体阻断剂阿托品或Ｎ受体阻断剂六甲双胺预处理完全阻断（Ｐ＜０．０５）。同样,ＣＢＣ的肾脏效应也可被肾上腺素能α受体阻断剂酚妥拉明预处理所部分阻断（Ｐ＜０．０５）。上述结果表明脑室注射ＣＢＣ引起的促钠排泄、促钾排泄和利尿反应是刺激了脑胆碱能Ｍ或Ｎ受体,有部分效应可能继发刺激去甲肾上腺素能α受体。