Synaptic and Synaptoid Vesicles Constitute a Single Category of Inclusions: New Evidence From Invertebrate Nervous Systems

Parallel observations on synaptic and neurohaemal terminals in the polychaete annelids Nereis diversicolor and Harmothoe imbricata have revealed a remarkable identity of ultrastructure. Even features peculiar to the synaptic vesicles of polychaetes are mirrored by those of synaptoid inclusions. A wide range of terminal types show a clear duality of secretory inclusions, featuring both ‘storage granules’ and synaptic/synaptoid vesicles. The inclusions exhibit a marked zonation. Vesicles form tight clusters with interstitial dense material in many terminals and these make contact with release sites. Terminals containing larger, typically peptidergic granules often have mainly dense-cored synaptic/synaptoid vesicles, although some such inclusions are present in other endings also. A variety of synaptic associations are present, and ‘serial synaptoids’ are formed by neurohaemal terminals. The results are interpreted to suggest that synaptic and synaptoid vesicles have a common functional significance.     

Further Evidence that Synaptic and Synaptoid Vesicles Constitute a Single Category of Inclusions: Dense-cored Synaptic and Synaptoid Vesicles in Helix Discharge their Contents by Exocytosis

In the pulmonate mollusc Helix, neurosecretory cells have perikarya that form neurohaemal complexes peripherally beneath the inner surface of the neural lamella and give rise to axons with varicosities in the neuropile. Two categories of secretory inclusions are present throughout the cytoplasm and these accumulate adjacent to sites of release. Secretory granules invariably have electron-dense contents, whereas smaller vesicles have fairly lucent contents following fixation in O_sO₄, but are dense-cored in material fixed initially with aldehyde. Vesicles (‘synaptic vesicles’) at central sites appear identical to those (‘synaptoid vesicles’) at peripheral, neurohaemal locations. At both neurohaemal and central sites, both granules and vesicles discharge their contents by exocytosis, this process being most clearly visualized in tissues treated with tannic acid.     

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     

Neurosecretory fibres in the median eyes of the scorpion,Androctonus australis L.

Summary The retina of the median eyes of the North African scorpion, Androctonus australis L., is supplied with numerous neurosecretory nerve fibres which establish synaptoid contacts on the retinula cells. The number of fibres or profiles of varicosities of fibre terminals associated with a retinular unit (five retinula cells with a fused rhabdom) varies between 10 and 20. Electron-opaque vesicles with a diameter of 80–100 nm are abundant within the axonal profiles. The synaptoid junctions are characterized by postsynaptic electron-dense material on the inner leaflet of the retinula cell membrane and, frequently, presynaptic submembranous dense material. Because of these ultrastructural features, the junctions observed here resemble typical interneuronal synaptic contacts. Hence this kind of neurosecretory junction appears to be unique among arthropods.It is suggested that the neurosecretory fibres within the retina represent the efferent pathways for the control of the circadian pigment movements within the retinula cells.Supported by the Deutsche Forschungsgemeinschaft (F1 77/7)     

LACK OF CORRELATION BETWEEN THE ZINC-IODIDE-OSMIUM POSITIVITY OF CHOLINERGIC TERMINALS AND THE CHOLINERGIC TRANSMISSION IN THE SYMPATHETIC GANGLIA OF THE CAT

—The aim of the experiments was to determine whether a direct correlation exists between cholinergic transmission and zinc-iodide-osmium (ZIO) positivity of the synaptic vesicles of the preganglionic terminals in sympathetic ganglia of the cat. It was found that hemicholinium (HC-3) pretreatment with or without preganglionic stimulation did not cause any significant changes in the ZIO positivity of cholinergic nerve terminals. The authors suppose that there is no direct relation between the ZIO positivity of axon terminals and the functioning of cholinergic transmission.     

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.     

‘Neurosecretion’ by a classic cholinergic innervation apparatus

Summary Nerve terminals forming typical synapses with adrenal chromaffin tissues have been examined in the goldfish, frog (Rana pipiens), hamster and rat. Presumptive secretory inclusions present in the terminals are of two distinct types. Electron-lucent synaptic vesicles 30–50 nm in diameter are densely clustered adjacent to membrane thickenings and presumably discharge their contents into the synaptic clefts. Secretory granules (i.e. large dense-cored vesicles) 60–100 nm in diameter are more abundant in other parts of the terminals. Sites of granule exocytosis have been observed in each of the animals investigated. They are usually encountered within apparently undifferentiated areas of plasmalemma and only rarely occur within synaptic thickenings. Granule exocytosis from within synaptic terminals and chromaffin gland cells is most readily observed in specimens exposed, prior to fixation, to saline solutions containing both tannic acid, and 4-aminopyridine and/or elevated levels of K⁺. These findings show that the pattern of secretory discharge, involving both synaptic and non-synaptic release, which is widespread in invertebrate central nervous systems, is also characteristic of vertebrate, peripheral cholinergic terminals.     

Electron microscopic study on the innervation of the pancreas of the domestic fowl

Summary The innervation of the pancreas of the domestic fowl was studied electron microscopically. The extrapancreatic nerve is composed mostly of unmyelinated nerve fibers with a smaller component of myelinated nerve fibers. The latter are not found in the parenchyma. The pancreas contains ganglion cells in the interlobular connective tissue. The unmyelinated nerve fibers branch off along blood vessels. Their synaptic terminals contact with the exocrine and endocrine tissues. The synaptic terminals can be divided into four types based on a combination of three kinds of synaptic vesicles. Type I synaptic terminals contain only small clear vesicles about 600 Å in diameter. Type II terminals are characterized by small clear and large dense core vesicles 1,000 Å in diameter. Type III terminals contain small clear vesicles and small dense core vesicles 500 Å in diameter. Type IV terminals are characterized by small and large dense core vesicles. The exocrine tissue receives a richer nervous supply than the endocrine tissue. Type II and IV terminals are distributed in the acinus, and they contact A and D cells of the islets. B cells and pancreatic ducts are supplied mainly by Type II terminals, the blood vessels by Type IV terminals.This work was supported by a scientific research grant (No. 144017) and (No. 136031) from the Ministry of Education of Japan to Prof. M. Yasuda     

Localization of substance P and leucine enkephalin in the nerve terminals of the guinea pig paracervical ganglion

Summary Immunoreactivities (IR) of substance P and leucine enkephalin have been demonstrated in the guinea-pig paracervical ganglion by an immunogold electron microscope method. Both substance P-IR and leucine enkephalin-IR were detected in large synaptic vesicles with electron-dense cores. The former neuropeptide was detected in nerve terminals and varicosities comprised mainly of large vesicles with electron-dense cores; the latter was detected in nerve terminals and varicosities that also included small, clear synaptic vesicles. In a minority of nerve terminals and varicosities coexistence of both immunoreactivities could be demonstrated within vesicles with an electron-dense core. Also present in these nerve terminals and varicosities were small, clear synaptic vesicles, though these were unreactive.     

Cytochemical studies on cytoplasmic granular elements in the hamster pineal gland

Summary The pineal gland of adult golden hamsters (Mesocricetus auratus) was studied by various cytochemical methods at the electron microscopic level: (1) the modified chromaffin reaction specific for 5-hydroxytryptamine (5-HT), (2) argentaffin reaction, (3) zinc-iodide-osmium (ZIO) mixture reaction and (4) acid phosphatase reaction. In the pinealocytes, the dense-cored vesicles (80–160 nm in diameter) show both chromaffinity and argentaffinity, while the population of dense bodies (150–400 nm in diameter) is reactive to ammoniacal silver solution and ZIO mixture but not to the modified chromaffin reaction. After incubation for demonstration of acid phosphatase activity, reaction products are localized in some, but not all, of the dense bodies, in some of the small vesicles in the Golgi region and in one or two inner Golgi saccules. In nerve fibers in the pineal gland, small granulated vesicles are also reactive to the modified chromaffin reaction and ZIO mixture. Based upon these cytochemical results the following conclusions have been reached: (1) dense cored vesicles in the pinealocytes and small granulated vesicles in the nerve fibers of the hamster pineal gland contain 5-HT, and (2) the population of dense bodies in the pinealocytes is heterogenous, some are lysosomes and the others are possibly the granules responsible for the secretion of pineal peptides.Supported in part by a grant from the National Science Council, Republic of ChinaDedicated to Professor Doctor Huoyao Wei on the occasion of his 70th birthday     

Fine structure of synapses in the hippocampus of the rabbit with special reference to dark presynaptic endings

Summary The stratum radiatum of h ₃ and h ₄ in the hippocampus of the rahbit, where the mossy fiber endings are distributed, was investigated under the electron microscope. These regions contain a certain number of electron dense presynaptic endings. These are characterized by highly dense synaptic vesicles and mitochondrial matrices. The dense endings are not considered as degenerated. Electron dense silver particles, substituted for zinc, occurred on the synaptic vesicles of these dense terminals as well as the mossy fiber endings after the application of Timm's histochemical method modified for electron microscopy. It is concluded that the dark synaptic endings observed might represent mossy fiber terminals in a special functional phase, or might be the result of structural alteration in the course of tissue preparation. The zinc localized in the synaptic vesicles is thought to be associated with the neurotransmitter present in these endings.     

Electron microscope investigation of synapses,synapse-like structures,and possible sites of release of neurosecretory material in the buccal ganglia of Helix pomatia (Mollusca)

Summary In the buccal ganglia of Helix pomatia synapses and sites of possible release of neurosecretory material were investigated electron microscopically. There is one chemical synapse and one electrotonic synapse in the neuropile of the ganglion. No synapses could be detected in the buccal nerves, cerebro-buccal connectives, or in the buccal commissure. The synaptic cleft of the chemical synapse is about 25 nm wide and contains electron-dense material whereas the cleft of the electrotonic synapse is only 5 nm wide. The presynaptic fibre of the chemical synapse contains clear vesicles and dense core vesicles. The release sites of neurosecretory material are found at the initial segment of the axons, at perikarya of neurones, and at the perineurium of the ganglion. If the terminals are located at the plasmalemma of a nerve cell, these release sites are called synapse-like structures according to Roubos and Moorer-van Delft (1979). The synapse-like structures show all structural elements of synapses, except the 25 nm cleft containing dense material; the cleft is only 15–20 nm wide here like the normal cleft between neurones and glial cells or between two fibres. If the secretory material is released at the periphery through the perineurium the terminal is called synaptoid according to Scharrer (1970). In all cases, i.e. synapses, synapse-like structures, and synaptoids, clear vesicles were found in the axon terminal. This finding provides further evidence that clear vesicles always accompany the release of substances from axon endings.     

Dense cored vesicles in presynaptic profiles of the rabbit dorsal lateral geniculate nucleus

We are carrying out a study about the synaptic relations between identified synaptic profiles in the dorsal lateral geniculate nucleus (dLGN) of the rabbit. Here, the types of synaptic vesicle containing profiles of the dLGN are described. There are presynaptic large profiles containing round vesicles and pale mitochondria (RLP terminals) and small profiles that contain round vesicles and dark mitochondria (RSD terminals) which respectively arise from the retina and the visual cortex. Another type of presynaptic profile contains elliptical vesicles (F-boutons) which can be subdivided according to their cytoplasmic content. These F-boutons arise from dLGN interneurons. We have found different sized vesicles that have a dense core within RLP, and F terminals and a possible RSD terminal. The significance of the coexistance of pale and dense cored vesicles in the presynaptic profiles of the rabbit dLGN is discussed.     

Über den Charakter synaptoider Endstrukturen markloser Fasern im Epiphysenpolster (Pulvinar corporis pinealis) der Gelbbauchunke (Bombina variegata L.)

Zusammenfassung Die synaptoiden Endformationen markloser, granulierter Axone im Pulvinar corporis pinealis vonBombina variegata wurden licht- und elektronenmikroskopisch untersucht.Mit Hilfe der Zn-J-OsO₄-Methode lassen sich Vesikel vom Typ synaptischer Bläschen in den Endformationen der Fasern im Pulvinar, in den plexiformen Zonen der Epiphyse sowie in den Endigungen markloser Fasern im sekretorischen Ependym des Subcommissuralorgans selektiv darstellen. Die in den Axonen des Epiphysenpolsters vorhandenen Granula mit elektronendichtem Kern reagieren nicht.Durch Injektion von Reserpin sowie dem Benzochinolizin-Derivat Ro 4-1284 ließen sich Aussehen und Dichte der Granula mit dichtem Inhalt nicht beeinflussen.Der Charakter der Vesikel und Granula und der mögliche Mechanismus ihrer Entleerung werden diskutiert.

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On the properties of synaptoid terminations of unmyelinated fibers in the pulvinar corporis pinealis in Bombina variegata (L.)

Summary The synaptoid terminations of granulated unmyelinated fibers in the neuropile of the pulvinar corporis pinealis inBombina variegata have been studied by light and electron microscopy.Vesicles with the structural properties of synaptic vesicles in the synaptoid terminations in the pulvinar corporis pinealis as well as identically shaped vesicles in the plexiform regions of the pineal organ and in unmyelinated fibers terminating between ependymal cells of the subcommissural organ can be stained selectively by aid of the zinciodide-osmium method. On the other hand granules with electron dense core in the pulvinar do not react.Size and number of the granulated vesicles in the axons of the pulvinar cannot be influenced by injection of reserpine or the benzoquinolizine derivative Ro 4-1284.The possible mechanism of discharge of secretory material and the probability of the presence of a cholinergic mechanism are discussed.

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Mit Unterstützung durch die Deutsche Forschungsgemeinschaft.     

Unusual presynaptic inclusions in the CNS of the marine polychaete,Nereis virens

Summary Unusual electron-dense inclusions occur in the nerve terminals of the Nereis CNS. These structures are closely associated with synaptic vesicles and contain what appear to be incomplete vesicles within them suggesting that they may be an organelle involved in synaptic vesicle production.Supported by grant EY 00888 from the USPHS to S.K.F.The authors wish to thank Ron Fargason for his contributions to the project     

Fine structure of islet-cell innervation in the pancreas of normal and alloxan-treated rats

Summary The innervation of the islets of Langerhans of normal albino rats and of albino rats treated with several daily doses of 125 mg/kg of alloxan was studied by electron microscopy. In the normal rat, nerve endings containing either agranular vesicles (200–400 Å) alone or in combination with large granular vesicles (500–800 Å) were found on both alpha and beta cells. Infrequently a third type of nerve ending containing small granular synaptic vesicles could be observed. Bundles of unmyelinated axons were also seen, as were typical autonomic ganglion cells. Similar normal neural elements were noted in rats treated with alloxan. However, islets of alloxan-treated animals also possess large elliptical profiles which appear to be dystrophic nerve terminals. These structures most frequently contact degranulated beta cells. Islets of Langerhans fixed with zinc iodide-osmium (ZIO) reported to specifically impregnate synaptic vesicles were also studied. Synaptic vesicles of normal axons and nerve endings as well as of the dystrophic structures were filled with ZIO reactive material. These studies suggest that alloxan may induce autonomic nerve ending changes in the rat endocrine pancreas. This may result from neuronal hyperactivity in an attempt to secrete insulin from the post-alloxan insulin-depleted beta cell.     

The fine structure of the central synaptic contacts on an identified crustacean motoneuron

Summary Small nerve terminals in the neuropile of the brain of the crab Scylla serrata make close contact with the secondary, tertiary and higher order central branches of the reflex eye-withdrawal motoneurons. Most contacts have the characteristics of chemically transmitting synapses in that the presynaptic terminals contain agranular vesicles of 25 to 50 nm in diameter and are separated from the motoneuron by a synaptic cleft of about 16 nm. Some terminals contain synaptic ribbons, others contain a mixture of larger (50 to 80 nm) agranular and also dense cored vesicles. In addition large blunt-ended contacts unaccompanied by vesicles, occur between neurons in the neuropile and the motoneuron. It is suggested that the absence of synaptic contacts over the large primary branches of the motoneuron could explain previous physiological findings that little or no resistance changes can be detected in this part of the neuron during excitation or inhibition.We thank Mrs. Joan Goodrum for the preparation of Fig. 1.     

Occurrence of uranaffin-positive synaptic vesicles in both adrenergic and non-adrenergic nerves of the rat anococcygeus muscle

Summary The uranaffin reaction in rat anococcygeus muscle, which receives a dual innervation of both adrenergic and non-cholinergic, non-adrenergic nerves was examined. Dense reaction product was observed in the vesicular membranes and/or the cores of some synaptic vesicles in the adrenergic nerve terminals. Occasional vesicles were filled up with dense reaction product. In the prominent population of small clear vesicles, however, no dense reaction product was observed. The number of small granular vesicles in the adrenergic nerve terminals was markedly increased after the administration of 5-hydroxydopamine (5-OHDA). These granular vesicles were moderately stained with uranaffin deposit on the cores but their limiting membranes possessed no uranaffin deposit at all.In the non-adrenergic nerve terminals, on the other hand, uranaffin deposit of variable density was observed on the cores of large granular vesicles but never on their limiting membranes or on the small clear vesicles. There was no change in the axon profiles after the administration of 5-OHDA.The possible occurrence of purines in the cores of large granular vesicles in the non-adrenergic nerves is discussed.     

Immunocytochemical localization of TRH and autoradiographic determination of 3H-TRH-binding sites in the arcuate nucleus-median eminence of the rat

Immunocytochemical and autoradiographic localization of thyrotropin-releasing hormone (TRH)- and 3H-TRH-binding sites was studied in the arcuate nucleus-median eminence region of the rat. TRH-like immunoreactivity was found in dense granular vesicles (90-140 nm in diameter) in TRH-like immunoreactive nerve fibers and terminals. In the median eminence, the immunoreactive terminals were observed to be in direct contact with the perivascular basal lamina of the portal vessel and to form synaptoid contacts with tanycytes. In the arcuate nucleus, the immunoreactive terminals were often found to form axosomatic and axo-axonic, and/or axo-dendritic synapses. The uptake of tritiated TRH into the nerve fibers and terminals of the median eminence was also observed by autoradiography and the distribution and localization of silver grains in them were analyzed quantitatively by circle analysis. Thirty minutes after intraventricular infusion of 3H-TRH, radioactive labeling occurred in type-2 and 3-nerve fibers and terminals containing dense granular vesicles in the median eminence. It is therefore suggested that the neurons labeled after 3H-TRH infusion possess certain functions as physiological recognition sites or receptors for TRH.