Ultrastructural study on the release of neurosecretory material from the sinus gland of the land crab,Gecarcinus lateralis

Summary Sites of release of neurosecretory material were examined in a neurohemal organ of decapod crustaceans, the sinus gland of the land crab, Gecarcinus lateralis. Such discharge into the circulation seems to occur primarily at interfaces between the neurosecretory axons and the acellular stromal sheath which is interposed between parenchyma and hemolymph. The evidence obtained from electron micrographs of adult specimens indicates that more or less intact secretory granules are released into the extraaxonal space primarily by the process of exocytosis. Synaptic-type vesicles are clustered in parts of neurosecretory axons facing the stromal sheath. Such vesicles are thought to result from rearrangement of membranes temporarily fused at the release site and to a minor degree from fragmentation of neurosecretory vesicles within the axon. The presence of nonmarginal vesicles and the occasional appearance of free intraaxonal dense material are interpreted as indications of a second, probably less frequent, mode of release of neurosecretory material.Supported by grants AM-3984, NB-00840, and NB-05219 from the U.S.P.H.S., administered by Dr. Berta Scharrer.I am greatly indebted to Mrs. Sarah Wurzelmann for her excellent technical assistance. I thank Dr. Dorothy E. Bliss for contributing the animals used in this study, and Mr. Murray Altmann for technical advice.     

Neurosecretion

Summary Ultrastructural changes were examined in corpora cardiaca ofPeriplaneta americana in which acute electrical stimulationin vitro had brought about hormone release.Tissue specimens from which a substantial amount of cardioaccelerator substance had been discharged into the incubation medium showed morphological indications of an increased rate of release of neurosecretory substance. These consisted in the presence, after stimulation, of a greater number of synaptoid configurations whose properties and distribution implicate them as sites of neurohormone release. This interpretation, originally arrived at by an analysis of corpora cardiaca not stimulated by experimental procedures, and fixedin situ, is now strengthened by the cytophysiological response observed as a consequence of the stimulus.According to the type of neurosecretory axon in which the formation of synaptoid structures occurs, apparently on demand, the cardioaccelerator tested for in the presentin vitro experiments, seems to be derived from large neurosecretory granules stored within the corpus cardiacum. On the basis of morphological and physiological information, their site of origin may be the perikarya of intrinsic or extrinsic neurosecretory neurons or possibly both.Supported by grants AM-3984, NB-00840, NB-04989, and NB-05219 from the U.S.P.H.S., and N.S.F. GB-4847. — We are indebted to Mrs.Sarah Wurzelmann for her excellent technical assistance.Grantee of an NDEA Title IV Predoctoral Fellowship.     

Ultrastructure of the rat posterior pituitary gland and evidence of hormone release by exocytosis as revealed by freeze-fracturing

Summary Posterior pituitary glands from normal rats, and rats which had been deprived of water for varying periods, were examined by the freeze-fracture method. This technique reveals large areas of the nerve cell membrane. Images consistent with exocytosis as the mechanism of release of the neurohypophysial hormones were observed. These modifications were most numerous after the rat had been starved of water for 2 days.In normal rats, the large number of neurosecretory granules within the nerve fibres caused a bulging of the nerve cell membrane. The bulges disappeared 2 days after removal of drinking water. Regions of the membrane displaying bulges were characterised by the absence of the typical membrane-associated particles.It is postulated that the close proximity of the neurosecretory granules to the nerve cell membrane may result in rapid fusion of the neurosecretory granules on stimulation of the gland. The change in properties of the nerve cell membrane overlying the neurosecretory granules, as suggested by the loss of membrane-associated particles, may represent a change in the structure of the membrane to a form which is more favourable for fusion.This work was supported in part by a grant from the New Zealand Medical Research Council.     

Neurosecretion

Summary Ultrastructural specializations characteristic of sites of release of neurosecretory material from axons were examined in several species of blattarian insects. Discharge of such material may take place within or outside of neurohemal organs and is not restricted to fiber terminals. Structurally distinctive areas serving this function occur intermittently and may be more or less transient. Many of these specialized zones face the extracellular stroma that forms sheaths and partitions of neurohemal organs (corpora cardiaca, perisympathetic organs), others contact various cellular elements (nerve fibers with or without neurosecretory granules, glial cells, non-neural endocrine cells).Irrespective of the milieu, these sites of release are characterized by small electron lucent vesicles clustered near the internal surface of the plasma membrane, and by variously shaped accumulations of electron dense material on either side of this membrane. These ultrastructural features are strikingly similar to those of the presynaptic component of conventional interneuronal junctions. However, the functional implications of this morphological resemblance seem to be limited. In neurosecretory systems, physiological phenomena comparable to chemical transmission are out of the question in the absence of postsynaptic cells.In peptidergic neurons of the insect species used in the present study, as in those of various mammals examined by other investigators, the small vesicles observed seem to be the result of fragmentation of neurosecretory granules prior to the discharge of their contents. The presence of variable intermediate stages speaks against a cholingergic role of these synapticlike vesicles at least some of which seem to contain neurosecretory material instead of a neurotransmitter. Furthermore, the variously shaped intra- and extracellular dense material in synaptoid areas seems to represent a neurosecretory product in transit and is therefore not equivalent to dense material customarily found within or on either side of the regular synaptic cleft.Sites of release not directly affiliated with the stroma often share a common narrow gap between adjoining neurosecretory fibers and face each other in mirror image fashion. It is here where the distinction from regular synapses is sometimes more difficult to make because the structural elements of one side of the paired complex may mimic postsynaptic dense material. A further source of difficulty in the interpretation of special contact areas of this sort is the existence of unusual junctions between two classes of neurosecretory neurons (B and A fibers) in which pre- and postsynaptic details are discernible. These, and synaptoid junctions with non-neural endocrine effector cells, seem to serve for the dispatch of local neurosecretory signals that resemble, but are nevertheless apart from, conventional neurohumoral communication. The special neurosesecretory products involved here do not qualify as neurohormones.Synaptoid neurosecretory contact areas with pre- and postsynaptic features should be classified as a group distinct from another group in which the postsynaptic component is absent.Supported by grants AM-3984, NB-00840, and NB-05219 from the U.S.P.H.S.I am greatly indebted to Mrs. Sarah Wurzelmann for her excellent technical assistance.     

Exocytosis of neurosecretory granules from the crustacean sinus gland in freeze-fracture

Exocytosis is clearly shown in freeze-fracture preparations to be the mechanism for neurosecretion granule release from axon endings in the crayfish sinus gland. The cytoplasmic leaflet (A-face) of axon ending membrane is characterized by randomly situated depressions representing invaginations of the axolemma, which are in contact with limiting membranes of neurohormone granules in the subjacent cytoplasm. The extracellular leaflet (B-face) of the axolemma at release sites exhibits complementary volcano-shaped protrusions which are cross-fractures through necks of channels formed by invaginating plasma membrane in contact with underlying neurosecretion granules. Structural variation in B-face protrusions is consistent with a spectrum of exocytotic profiles in various stages of formation, and with granules at different stages of passage out of the endings. Evidence in this study suggests that formation of exocytotic structures may begin by alteration of axon membrane structure at the neurosecretory ending-hemolymph interface prior to contact of the neurohormone granules with the axolemma. Limiting membranes of neurosecretory granules exhibit protrusions which appear to interconnect granules adjacent to release sites and to attach granules to the axolemma. Freeze-fracture is clearly shown to be an invaluable tool for monitoring the degree of exocytosis exhibited by sinus glands under normal conditions and under experimental acceleration of hormone release. This technique is capable therefore, of detecting slight increases in numbers of exocytotic profiles much more quickly and accurately than the examination of random thin sections.     

Electron microscopic study on the larval and adult corpus allatum of Oncopeltus fasciatus dallas (insecta,heteroptera)

Summary 1. The ultrastructure of the corpora allata of last larval instars and adults of Oncopeltus was studied. The unpaired gland undergoes submicroscopic alterations and shows signs of degradation in old animals. The organ is partly covered and penetrated by corpus cardiacum tissue. Axons with different types of neurosecretory granules form synaptoid contacts with the corpus allatum cells.2. Dark and light gland cells can be differentiated on account of the degree of electron density. The former predominate during the last larval stage and in the young imago, the latter in mature males and females. It is highly probable that the light cells are the active (i.e. hormone producing) ones and the dark cells the inactive ones.3. The active cells are characterized by rough endoplasmatic reticulum (often in whorls), small amounts of smooth endoplasmatic reticulum and many multivesicular bodies. Abundant free ribosomes, a not particularly well developed Golgi apparatus, dense bodies, and cytolysomes are present in active and inactive cells.4. The nuclei contain one to four prominent and variously shaped nucleoli, which show differences between adult males and females with respect to their location in the nucleus.5. The corpus allatum cells of Oncopeltus are obviously engaged in extensive protein synthesis. Tangible structural indications for the manufacture of juvenile hormone were not observed. Possible sites of hormone release are discussed.This study was made possible by a fellowship and grants from the Deutsche Forschungsgemeinschaft and was supported by research grants, administered by Prof. Scharrer, from the U.S.P.H. Service (NB-05219; NB-00840 and NS-07512). Present address of author: Institut für Allgemeine Zoologie der Johannes Gutenberg-Universität, D-6500 Mainz, Saarstraße 21, Bundesrepublik Deutschland.I am indebted to Prof. Scharrer for guidance and criticism. I also wish to express my appreciation to Mrs. S. Wurzelmann and Mr. S. Brown for their excellent technical assistance.     

Release in vitro of neurohypophysial proteins from neural lobe tissue slices and from isolated neurosecretory granules of the rat

Summary The release of neurophysin from neural lobe tissue slices and isolated neurosecretory granules of the rat was studied at various time intervals after injection of (³⁵S) cysteine into the supraoptic nucleus. For hours after isotope injection the release of radioactive neurophysin from neural lobe tissue was increased by depolarizing concentration of potassium in the presence of calcium ions. Fourteen and 30 days after isotope injection the release of radioactive neurophysin was relatively decreased in a medium of high potassium concentration which might be explained by the heterogeneity of the pool of neurophysin within the neural lobe. Four h after isotope injection the spontaneous release of neurophysin from neural lobe tissue was higher in dehydrated rats than in controls, and the neural lobes of these animals did not respond with an increased release of radioactive neurophysin when exposed to high potassium concentration.Eighteen h after isotope injection the predominating proportion of neurophysin-bound radioactivity was found in the neurosecretory granule fraction, whereas 14 days after injection a fairly equal amount of radioactivity was found in this fraction and in the soluble protein fraction. This indicates that with time an increasing amount of radioactive neurophysin passes from an intragranular to an extragranular pool.The spontaneous release of radioactive neurophysin from isolated neurosecretory granules was higher, and the increase of release upon exposure to an ATP-regenerating system was higher 14 days after isotope injection than 18 h after injection. This may imply that the neurosecretory material undergoes an intragranular maturation process to become more easily releasable. The release of radioactive neurophysin was inhibited in the presence of AMP and EDTA, which demonstrates the dependence of the release process of an ATPase and, probably, of calcium ions.Neurosecretory granules from dehydrated rats possessed a higher spontaneous release than those of control rats 18 h after injection, which may indicate an enhanced intragranular maturation process of the neurosecretory material due to osmotic stimulation.Abbreviations NSG neurosecretory granule - NSM neurosecretory material The present work was supported by grants from Carl-Bertel Nathhorsts vetenskapliga stiftelse, from Svenska Livförsäkrings bolags nämnd för medicinsk forskning, from Överläkare Albert Wallins fond and from the Medical Faculty of the University of Göteborg. I am most indebted to Miss Gull Grönstedt for careful secreterial work.     

Effect of aldosterone on incorporation of amino acids into renal medullary proteins

Summary Studies on the effects of pretreatment with aldosterone on the incorporation of³H leucine or³H methionine into proteins in renal slices were carried out in Joklik-modified minimal essential medium. Administration of aldosterone (2 g/100 g body wt) to adrenalectomized rats increased³H leucine incorporation into trichloroacetic acid insoluble fractions of crude homogenates of cortical slices by 15.5±0.4% and of medullary slices by 53.5±1.3%. No increase in isotope incorporation was observed in slices of renal papilla or spleen prepared from the same rats. Aldosterone had no effect on the³H-leucine content of the trichloroacetic acid-soluble fractions of all three renal zones and the spleen. The dose of aldosterone that elicited a half-maximal increase in³H-methionine incorporation into proteins of renal medullary slices (0.45 g of aldosterone/100 g body wt) was indistinguishable from that needed to elicit a halfmaximal increase in the urinary K⁺/Na⁺ ratio (0.35 g of aldosterone/100 g body wt). Dexamethasone, a potent glucocorticoid, at a dose of 0.8 g/100 g body wt did not augment³H-leucine incorporation into renal medullary proteins but was effective at 8 g/100 g body wt. Spirolactone (SC-26304), a potent anti-mineralocorticoid, abolished the effect of aldosterone on amino acid incorporation into medullary proteins when administered at a 100-fold higher dosage [i.e., 80 gvs. 0.8 g (per 100 g body wt)]. These results imply that the action of aldosterone on amino acid incorporation is mediated by the mineralocorticoid rather than the glucocorticoid pathway, presumably the mineralocorticoid receptors. Moreover, pretreatment of the rats with actinomycin D (70–80 g/100 g body wt) erased the effect of aldosterone (0.8 g/100 g body wt) on amino acid incorporation into medullary proteins.In paired experiments with³H and³⁵S methionine, aldosterone (0.8 g/100 g body wt) increased methionine incorporation into trichloroacetic acid precipitable proteins of subcellular fractions of the renal medulla. The effect of aldosterone on incorporation of methionine into medullary cytosol proteins was analyzed further by polyacrylamide gel electrophoresis at pH 8.3 in tris-glycine buffer. The gel profiles indicate that aldosterone significantly increased methionine incorporation into at least one protein (independent of the isotope) with a molecular weight of 31,000. This increase was inhibited by either pretreatment of the rat with actinomycin D (70–80 g/100 g body wt or SC-26304 (80 g/100 g body wt). Dexamethasone (0.8 g/100 g body wt) did not increase incorporation of methionine into the medullary cytosol proteins resolved by polyacrylamide gel electrophoresis.     

Possible sites of release of neurosecretory granules in the sinus gland of the crayfish,Orconectes nais

Summary The sinus gland is a neurohemal organ located in the crayfish eyestalk and represents a storage site for neurohormones prior to their release into the circulation. The sinus gland contains three classes of electron dense, membrane-limited granules. Class 3 granules are the largest and most electron dense of the granules found in the sinus gland. Granules of class 1 are the smallest, while those of class 2 are the most abundant. Generally, all granules undergo similar changes during their release.Release of neurosecretory material may be initiated by a preliminary fragmentation of the parent granules into smaller granules. Following the formation of numerous smaller granules, these move to the plasma membrane and their limiting membrane apparently fuses with it thus releasing its contents into the external lamina which is applied to the sinusoidal surface of the axon terminals. Granule release does not appear to occur along the entire plasma membrane adjacent to the blood sinus but, instead, probably occurs only at specific active sites on the membrane. The active sites are characterized in part by an accumulation of small granules and clear vesicles against the cytoplasmic side of the plasma membrane. At the site of release of the neurohormone, there is often an accumulation of dense homogeneous material beneath the axolemma.Occasionally, axon endings filled with large, electron lucent vesicles are seen. These clear granules vary from 1150–1750 Å in diameter and often exhibit broken limiting membranes. Few small vesicles are seen near the plasma membrane of these endings; however, instances of invaginations of the plasma membrane occur. The significance of endings filled with clear granules is discussed.Supported by a grant from the National Research Council of Canada (No. A-4675).     

Effects of colchicine on release of neurosecretory material from the posterior pituitary gland of the rat

Summary The effect of colchicine on the release of neurosecretory material from the posterior pituitary gland was investigated in the rat in vivo and in vitro. Colchicine was administered subarachnoidally when neurophysin, radiolabelled by injection of (³⁵S) cysteine into the supraoptic nucleus, had accumulated in the neural lobe. Dehydration for 3 days of non-colchicine-treated rats was followed by a 100% reduction of neurophysin-bound radioactivity. When colchicine was given prior to dehydration, the reduction of radioactive neurophysin was less marked. Colchicine treatment alone was likewise followed by a lowering of protein-bound radioactivity in the neural lobe, which may indicate that colchicine, in addition to blocking the rapid axonal transport of neurosecretory material, also impedes the slow transport.The release of radioactive neurophysin in response to depolarizing concentration of potassium in vitro was diminished in the presence of colchicine, the reduction being most pronounced after colchicine treatment in vivo. The biochemical data prove the view that colchicine inhibits the release of neurosecretory material from the neural lobe. The ultrastructural findings support the biochemical data. Thus, colchicine treatment alone or followed by dehydration induced a marked increase in the number of organelles, especially of mitochondria and dense bodies. There was a marked increase in the number of enlarged axons filled with dammed organelles in the infundibulum and neurohypophysis. There was an accumulation of dense core vesicles and microvesicles in the axonal terminals in the neurohypophysis after treatment with either colchicine or colchicine followed by dehydration, which indicates an impediment of the release process. Dehydration alone induced a depletion of the dense core vesicles in the terminals. Out from the combined biochemical and ultrastructural findings possible mechanisms for the action of colchicine are discussed.The present study was supported by grants from Svenska livförsäkringsbolags fond för medicinsk forskning, The Swedish Medical Research Council (No. B73-12X-2543-05B), Magnus Bergvalls stiftelse and from the Medical Faculty, University of Göteborg.Miss Gull Grönstedt is thanked for careful secretarial work and the technical assistance by Mrs. Wally Holmberg, Mrs. Elisabeth Norström and Mrs. Ulla Svedin is gratefully acknowledged. Abbreviations used: NSG = neurosecretory granules; NSN = neurosecretory material; SON = supraoptic nucleus.     

Neurosecretory endings associated with striated muscles in three insects (Schistocerca,Carausius, and Phormia) and a frog (Rana)

Summary Neurosecretory nerve-endings are found in association with the ventral longitudinal muscles of the body wall in locust, stick insect and blowfly larva, and with toe muscles in the frog. In the stick insect the endings are less intimately associated with the muscles than in the locust or in the blowfly larva. In the locust and the stick insect and in the frog there are separate neurosecretory and ordinary motor endings but in the blowfly larva the characteristic features of motor and neurosecretory endings are combined in the same axon. The apparent sites of release of neurosecretory material show a characteristically rippled plasma membrane and are covered by only a flimsy layer of connective tissue material (stroma). In all three insects studied most of the neurosecretory material appears to be liberated into the haemolymph. Neurosecretory material appears to be released through the membrane at any point however, including, in the locust and in the blowfly larva, that part applied to the muscle. In the stick insect no endings have been seen as closely associated with the muscle as in the other two species. In the frog, as in the stick insect, the neurosecretory material is not liberated directly on to the muscle but into the connective tissue that lies between muscle fibres.Supported by a grant from the Science Research Council.Commonwealth Foundation Research Scholar.     

The effects of cyanide plus β-hydroxybutyrate on changes in mitochondrial absorbancy and ultrastructure induced by hypotonicity and inorganic phosphate

Summary Absorbancy measurements and electron microscopy of isolated rat liver mitochondria show that simple osmotic swelling is not prevented by cyanide plus -hydroxybutyrate. Similarly, electron microscopy shows that these two agents do not prevent the swelling induced by inorganic phosphate. However, the absorbancy decrease induced by inorganic phosphate is inhibited by cyanide plus -hydroxybutyrate.These findings cast doubt on the validity of the absorbancy method as an index of mitochondrial morphology. The evidence also indicates that both simple osmotic swelling and that induced by inorganic phosphate are independent of respiration. An osmotic mechanism is proposed as an alternative.Dedicated to Prof. Berta Scharrer on her 60^th birthday.This study was supported by Research Grants GM-08900, NB-02145, NB-05219 from the U.S.P.H.S. and a Lederle Medical Faculty Award. Fine technical assistance was provided by Mrs. Cynthia Jones, Miss Ursula Moeller and Mr. Stanley Brown.     

Immunochemical analysis of the distribution of the new ovary maturating neurohormone during development of the African locust,Locusta migratoria

Summary Following our prior identification of a gonadotropic neurohormone isolated from the neurosecretory lobe of the corpora cardiaca of the African locust, we have raised a polyclonal antiserum against this new molecule. In the present paper, we characterize this antiserum using enzyme-linked immunosorbent assay and Western blotting. The latter procedure reveals that the immune serum specifically recognizes the neurohormone, which we have termed ovary maturating parsin. Immunohistochemistry, enzyme-linked immunosorbent assay and Western blotting were used to analyze the distribution of this gonadotropic neurohormone throughout the central nervous system during development. It is produced only by the type-B neurosecretory cells of the pars intercerebralis-corpora cardiaca system and is present both in males and females throughout life from embryo to adult. This permanent expression suggests that the neurohormone may have functions other than its primary direct gonadotropic role in females.     

Isolation and characterization of neurosecretory granules of the rat posterior pituitary gland

Summary Neurosecretory granules (NSG) of rat posterior pituitary glands were prepared by differential centrifugation techniques mainly according to the procedure as described by Barer, Heller and Lederis (1963). As revealed by electron microscopy, the recovery of neurophysin and the contents of enzymes, purified NSG were obtained in a pellet at 30 000 g/60 min (0.44 M sucrose). Eighteen h after injection of (³⁵S) cysteine into the supraoptic nucleus 60% of the recovered radioactivity in the neural lobe was found in the NSG, whereas 20% was found in the final supernatant (100 000 g/120 min). Sixteen days after injection the NSG and the final supernatant fraction contained fairly equal amount of (³⁵S) cysteine (approximately 40%). It is suggested that after a period of intragranular maturation neurophysin is extruded into an extragranular pool of neurosecretory material.With the use of conventional polyacrylamide-gel electrophoresis it was shown that the predominating proportion of radioactivity in the NSG after a hypothalamic injection of (³⁵S) cysteine was located within the neurophysin fraction A and in fraction B. Fraction B is suggested to be partly bound to the NSG membranes. When the NSG soluble and NSG insoluble proteins, obtained after lysis of NSG, were separated on polyacrylamide gels in the presence of sodium dodecylsulphate, the highly radioactive soluble protein was shown to consist of two components with average molecular weights of 12 300 and 14 600. Most of the proteins in the lysate were found in the NSG membranes, though less radioactive. A component with a mol.wt. of 37 000 was enriched in the membrane fraction. At longer times after isotope injection the high mol.wt. proteins, particularly those of the NSG membranes, contained increased amounts of radioactivity.Abbreviations NSG neurosecretory granule - NSM neurosecretory material - SON supraoptic nucleus The present investigation was supported by grants from Svenska Livförsäkringsbolags nämnd för medicinsk forskning from Svenska Sällskapet för Medicinsk forskning, from the Medical Faculty, University of Göteborg, and from the Swedish Medical Research Council (B 72-12X-2543-04A).We are indebted to Mrs. Marie-Louise Eskilsson, Mrs. Wally Holmberg and Mrs. Ulla Svedin for technical assistance, and to Miss Gull Grönstedt for careful secreterial work.     

Secretory hyperactivity and mitochondrial changes in neurosecretory cells of an insect

Summary The neurosecretory cells of the corpus cardiacum of the desert locust Schistocerca gregaria secrete their hormonal products by exocytosis. The insecticide lindane is known to cause release of hyperglycaemic and adipokinetic neurohormones. Electron microscopy of lindane-poisoned corpora cardiaca reveals many exocytotic omega figures. Mitochondria are affected either directly by the poison or by the consequences of secretory hyperactivity. They occur in increased number, divide, acquire dense mitochondrial granules larger than in the controls, and sometimes line up along plasma membranes, mitochondria in two neighbouring cells forming pairs in juxtaposition. Between two such mitochondria the plasma membranes form a junction-like structure. It is suggested that these effects reflect an excessive calcium entry caused by lindane.This work was supported by a Wellcome-Carlsberg Travelling Research Fellowship awarded to T.N. and by a Commonwealth Scholarship for Postgraduate Research awarded to M.S.     

Weitere elektronenmikroskopische Untersuchungen am kaudalen neurosekretorischen System von Fischen

Zusammenfassung Das kaudale neurosekretorische System von Cyprinus carpio und Channa argus Cantor wurde elektronenmikroskopisch untersucht. Während in den Golgi-Bläschen von Channa nur eine Art von Elementargranula entsteht, kommen bei Cyprinus zwei Granulatypen verschiedener Größe und Elektronendichte (- und ß-Granula) vor, jedoch nie in ein und derselben neurosekretorischen Zelle zusammen. Bei Cyprinus werden Elementargranula verschiedener Elektronendichte aus der Zelle in die perivaskulären Räume abgegeben.Außer Elementargranula wurden große Tropfen mit verschiedener Struktur in den Perikaryen und in den Basen der Zell-Fortsätze beobachtet. Ein Teil der Tropfen ist durch Verschmelzung der Elementargranula entstanden, die meisten jedoch entsprechen Lysosomen, Myelinfiguren, multivesicular bodies usw.Die neurosekretorischen Zellen sind durch zahlreiche axo-somatische und axo-axonale sowie axo-dendritische Synapsen mit nichtsekretorischen Nervenzellen verbunden. — Da die Wandungen der endozellulären Kapillaren ohne Zwischenschaltung einer gliösen Schranke die Zellmembran der Perikaryen berühren, wird ein unmittelbarer Stoffaustausch zwischen neurosekretorischen Zellen und Blut vermutet.

---

Summary The caudal neurosecretory system of Cyprinus carpio and Channa argus Cantor was studied electron microscopically. In the secretory nerve cells of both species the elementary granules are formed in the Golgi complex. In the neurosecretory system of Cyprinus carpio two kinds of neurosecretory cells can be differentiated according to the size and the electron density of their granules (- and ß-granule). Grnules of both types cannot be found in the same neurosecretory cell. In Cyprinus the elementary granules of various density are released into the pericapillary space.Apart from the elementary granules droplets with various structures in the perikarya and bases of the processes were recognized. A part of these droplets consists of accumulated elementary granules, the majority however belongs to inclusions like lysosomes, myelinfigures, multivesicular bodies and so on.The neurosecretory elements are connected with non-secreting nerve cells by numerous axo-somatic, axo-axonic and axo-dendritic synapses. In Channa argus the perikarya of neurosecretory cells are in close contact with the basement membrane of the capillary, i.e. there is no glial barrier between the neurosecretory cell and the blood vessel.

---

---

Frau Professor Dr. B. Scharrer zum 60. Geburtstag gewidmet.     

The fine structure of neuromuscular junctions and contact zones between body wall muscle cells of Ascaris lumbricoides (var. suum)

Summary Neuromuscular junctions and close membrane apposition between body wall muscle cells of Ascaris lumbricoides (var. suum) have been examined with the light and electron microscopes. It was found that the body wall muscle cells send out elongate processes from their basal, myofibril containing portion to terminate on dorsal and ventral nerves. When observed with the aid of the electron microscope the neuromuscular junctions were seen to consist of several muscle cell processes in apposition to a single axon. The intersynaptic cleft was approximately 350–500 Å wide. Both the axolemma and sarcolemma were triple layered membranes which were 75–80 Å thick. Electron dense patches were observed at intervals on the apposed membranes which were due to increased thickness of the inner membrane leaflets of axolemma and sarcolemma. Muscle cell membranes, at the level of the neuromuscular junction, were in close apposition resulting in an apparently five-layered membrane complex which was 170–210 Å thick. The sarcolemmata in these regions were separated by 10–50 Å. Presynaptic axons contained mitochondria, microtubules which were 180–270 Å in diameter, and two, morphologically distinct types and sizes of synaptic vesicles. One was 200–600 Å in diameter, with a single, triple-layered membrane bounding a center of low electron density. The other was 600–1200 Å in diameter, with a single, triple-layered membrane bounding a central, electron dense granule of 500–800 Å size.The functional significances of the close membrane appositions between body wall muscle cells and of the two types of synaptic vesicles found at the neuromuscular junctions of Ascaris lumbricoides were discussed with respect to their possible role in neuromuscular physiology.Supported by U.S.P.H.S. Grant No. NB-01528 and Research Career Development Award No. 9-K3-NB-15255. — The author wishes to express his grateful appreciation for the excellent technical assistance given by Miss Gabrielle Rouiller during the course of this investigation.     

Vergleichende fluoreszenzmikroskopische und elektronenmikroskopische Untersuchungen am zentralen Nervensystem von Planorbarius corneus L. (Basommatophora)

Zusammenfassung Durch Vergleich fluoreszenz- und elektronenmikroskopischer Untersuchungen am zentralen Nervensystem von Planorbarius corneus L. wird nachgewiesen, daß in den Schlundringganglien Neurosekretzellen vorkommen (Nachweis mit Pseudoisocyaninchlorid), die mit Nervenzellen nicht identisch sind, die durch ihren hohen Gehalt an biogenen Aminen auffallen (Nachweis durch die Methode von Falck und Owman, 1965). Es können daher im Schlundring von Planorbarius corneus peptiderge und aminerge Neurosekretzellen unterschieden werden. Die PSC-positiven Neurosekretzellen enthalten elektronendichte Elementargrana und die aminergen Neurone dense-core Vesikel. Der Nachweis biogener Amine in einigen Nervenzellen von Planorbarius corneus spicht für deren chemische Identität mit Transmittersubstanzen, ihre hohe Konzentration aber für eine Abgabe in die Körperflüssigkeit.

---

Comparative fluorescence- and electron microscopic studies of the central nervous system of Planorbarius corneus L. (Basommatophora)

Summary The neurosecretory system of the snail Planorbarius corneus has been investigated by fluorescence and electron microscopy. With the fluorochrome Pseudoisocyanin the established neurosecretory system in the cerebral ganglia and single neurosecretory cells in the other ganglia show an intensive yellow fluorescence. Electron micrographs reveal the presence of electron dense granules (elementary granules) in the pericarya and the axons of neurones which have the same localisation in the ganglia as the pseudoisocyanin-positive cells. The fluorescence technique for biogenic amines produces yellow and green fluorescence within neurons and in the neuropil and nerves. The fluorescence obtained in determinable areas and neurones correlates well with the electron microscopic location of dense-core vesicles within the pericarya and axons of cells in even the same areas. It is discussed, that in this animal both types of cells are so-called neurosecretory cells, because the high content of elementary granules in the peptidergic neurosecretory cells and of dense-core vesicles in the aminergic neurosecretory cells is an indication for secretion of these products in neurohaemal areas (circulatory channels).

     

The hypothalamo-hypophysial system of the frog Rana temporaria

Summary The median eminence (ME) of the adult frog, Rana temporaria, was studied by means of electron microscopy including quantitative electron-microscopic autoradiography. In frogs captured in May and June numerous peptidergic neurosecretory fibres extending via the internal zone to the pars nervosa display large swellings containing few granules, mitochondria, neurotubules and cisternae of the smooth endoplasmic reticulum. In addition, few secretory globules up to 1.5 m in diameter occur in these varicosities. In animals collected during the autumn period many of these neurosecretory swellings filled with neurosecretory granules and polymorphic inclusions resemble Herring bodies. Three types of granule-containing neurosecretory fibres were observed in the external zone (EZ) of the ME of adult R. temporaria. Peptidergic A₁- and A₂-type fibres are characterized by granules 150–220 nm and 100–160 nm in diameter, respectively. Monoaminergic fibres of type B with granules approximately 100 nm in diameter represent 50% of all neurosecretory elements in the EZ of the frog ME; 12% of the total number of granule-bearing axons in the EZ actively taking up radiolabelled 5-hydroxytryptophan are thought to be serotoninergic terminals. Neurosecretory terminals of all types and glial vascular endfeet establish direct contacts with the perivascular space of the primary portal capillaries. Some neurosecretory terminals are separated from the lumen of the third ventricle by a thin cytoplasmic lamella of tanycytes. The possible physiological significance of this structural pattern is discussed.     

Novel changes in the plasma membrane and cortical cytoplasm during wound-induced contraction in a giant-celled green alga

Summary Changes in the plasma membrane surface and in the cortical cytoplasm during wound healing in giant green algal cells ofErnodesmis verticillata (Kützing) Brgesen were followed using scanning and transmission electron microscopy. Microvillus-like structures that contain cytoplasmic and cytoskeletal constituents were observed emanating from the surface of the plasma membrane at the retracting/cut end of wounded cells. These delicate structures seem to be remnants of cell wall-plasmalemma connections that draw out the plasma membrane and cortical components from the contracting cytoplasm as it pulls away from the cell wall. Most of these connections break during wound healing and, when contraction stops, the microvillus-like protrusions become progressively shorter. In cells treated with a calmodulin antagonist (W-7), a number of distinctive bodies accumulate that are of unknown composition, are oblong in shape, and have a diameter slightly smaller than the protoplasmic protrusions. Ultrastructural and other data indicate that these bodies result from retrieved constituents of the plasma-membrane protrusions, as they do not accumulate in unwounded drugtreated cells or in cells treated in W-5. These findings suggest that the protoplasmic protrusions accumulate membrane and cytoplasmic components that are retrieved and recycled during wound healing inErnodesmis by a novel mechanism. The combined plasma membrane surfaces of the microvillus-like protrusions may help to account for the drastic decrease in surface area that occurs during wound healing.Abbreviations SEM scanning electron microscopy - TEM transmission electron microscopy - W-7 N-[6-aminohexyl]-5-chloro-1-naph-thalenesulfonamide - W-5 N-[6-aminohexyl]-1-naphthalenesulfonamide