The hypothalamo-hypophysial system in acipenseridae

Summary The neurohypophysis of sexually mature male and female Acipenser güldenstädti Brandt and Acipenser stellatus Pallas was studied light and electron microscopically. The recessus hypophysei lined with ependymal cells of two main types, narrow and wide, are in the center of the neurohypophysial roots. Processes from both cell types run radially to the basement membrane of the connective tissue layers abutting on the hypophysial intermediate lobe. Protrusions penetrating deep into the recessus hypophyseus are found in the apical parts of the wide cells. Pituicytes are rare in the neurohypophysis. The ultrastructure of both ependymal cell types and of the pituicytes is described. Nonmyelinated Gomori-positive (peptidergic) neurosecretory A₁ and A₂ type fibres and their terminals containing elementary neurosecretory granules (1400–1800 Å and 1000–1400 Å respectively) are the main structural elements of the neurohypophysis. Some dark and single myelinated neurosecretory fibres have been found. The adrenergic fibres (type B) were described earlier (Polenov et al., 1972a). The structural peculiarities of the neurohypophysis are discussed in functional and comparative-morphological terms.     

The hypothalamo-hypophysial system of the wild carp,Cyprinus carpio L.

Summary The posterior neurohypophysis (PNH)-pars intermedia complex of the wild and pond carp, Cyprinus carpio L., has been studied by light, fluorescence and electron microscopy. Gomori-positive neurosecretory fibres are abundant in the main trunk of the neurohypophysis as well as its roots penetrating the pars intermedia. Terminals of these fibres are in contact with capillaries of the general circulation and with glandular cells of the pars intermedia. Monoaminergic fibres with a weak green fluorescence, somewhat increasing after injection of nialamide into the pond carp, have largely the same distribution. Three types of neurosecretory fibres and their terminals have been recognized in the PNH-pars intermedia complex. Types-A₁ and -A₂ fibres, containing granules of 140–180 nm and 100–160 nm in diameter respectively, are peptidergic Gomori-positive. Type-A₂ fibres predominate in the PNH. The least frequent monoaminergic type-B fibres have granules of 60–100 nm in diameter. Numerous peptidergic and few monoaminergic neurosecretory terminals make contact with the capillaries located within the roots of the PNH as well as at the border between them and the pars intermedia. Both peptidergic and monoaminergic terminals make direct synaptoid contacts with the gland cells or end close to connective tissue septa, basal lamina or pituicytes. The PAS-positive gland cells and to a lesser degree the leadhaematoxylin-positive gland cells show these relationships with neurosecretory terminals. The question concerning the mode of interaction between peptidergic and monoaminergic structures in the dual control of the gland cells of the pars intermedia of teleosts is discussed.     

The neurohypophysis of the crested newt

Summary In the crested newt, the ultrastructural organization of the pars nervosa is analogous to that already known in non-mammal tetrapods. An orderly array of ependymal cells makes up the inner limiting layer while less abundant pituicytes are irregularly distributed within this organ. Light and dark pituicytes can be distinguished on the basis of the relative density of the cytoplasmic matrix and the distribution of the cell organelles.Both the ependymal cells and pituicytes are rich in dense bodies and possess extensive processes which ramify among the nerve fibers, often reaching the pericapillary space which they can line for long distances.The main components of the pars nervosa are nerve fibers and nerve terminals (type A), containing electron dense granules 1200–2000 Å in diameter together with clear vesicles averaging 250–400 Å. These fibers are likely to correspond to the aldehyde fuchsin positive neurosecretory fibers revealed by light microscopy. Differences in the granule size within the fibers and terminals lead to further recognition of two subgroups (A₁ and A₂).Other fibers and terminals (type B) containing clear vesicles and granular vesicles 600 to 1000 Å in diameter, possibly of aminergic type, are also encountered. These fibers are rare and can be seen only in the portion of the pars nervosa near the pars intermedia of the adenohypophysis.Lastly, fibers and terminals containing only clear vesicles ranging from 250 to 400 Å (type C) are occasionally found.Nerve endings are often formed by type A fibers on the perivascular space and on the perivascular processes of the ependymal cells and pituicytes. In agreement with recent findings available in the literature, the occurrence of synaptoid contacts between these terminals and both pituicytes and ependymal cells may confirm the active role of these cells in transport and release of neurosecretion.Work supported by a grant from the Consiglio Nazionale delle Ricerche.We are gratefully indebted to Dr. G. Gendusa and P. Balbi for technical assistance, dr. G. E. Andreoletti for statistical analysis.     

The innervation of the myometrium of the cynomolgus monkey (Macaca fascicularis)

Summary The autonomic innervation of the myometrium of Macaca fascicularis consists of bundles of unmyelinated nerve fibres running between the smooth muscle cells, and is therefore considered to be of the fascicular (= unitary) type. Close contacts between nerve fibres and smooth muscle fibres were not found. Modification of the chromaffin method according to Tranzer and Richards made it possible to visualize the heterogeneity of the nerve fibres in a single bundle. The following fibre types were found to coexist: (1) noradrenergic fibres containing synaptic vesicles with a dense granule, (2) cholinergic fibres containing empty synaptic vesicles, and (3) non-adrenergic noncholinergic (NANC) fibres containing only or predominantly large dense-cored vesicles, which do not react with this method. Noradrenergic fibres are the most numerous (around 60%), followed by NANC fibres (30%) and cholinergic elements (around 10%). The distribution of these three types is similar in the cervix, the isthmus and the body of the uterus in pregnant and non-pregnant females.     

Organization and ultrastructural identification of the catecholamine nerve terminals in the neural lobe and pars intermedia of the rat pituitary

Summary The central catecholamine innervation of the pituitary neural lobe and pars intermedia of the rat have been identified ultrastructurally and their organization has been investigated in a combined fluorescence histochemical and electron microscopical study. The dopamine analogues, 5-hydroxydopamine and 6-hydroxydopamine, were used to label the catecholamine terminals, and to enable the direct correlation between the fluorescence microscopical and the electron microscopical pictures.The fibre type that was identified as catecholamine-containing was ultrastructurally chiefly characterized by dense-cored vesicles, 500–1200 Å in diameter, intermingled with varying numbers of small empty vesicles. 5-hydroxydopamine was selectively accumulated in these fibres and caused an increased electron density of the granular vesicles as well as of some small normally agranular vesicles, and systemically administered 6-hydroxydopamine caused a selective degeneration of these fibres, most prominently within the neural lobe. The dopaminergic terminals of the neural lobe showed frequent close contacts (80–120 Å), without real membrane thickenings, to neurosecretory axons and to pituicyte processes. It is suggested that these close contacts might signify a direct dopaminergic influence on the neurosecretory axons and/or on the pituicyte processes. The identified central catecholamine fibres were also found to make common synapse-like contacts on the pars intermedia cells, whereas the innervation by neurosecretory fibres was very rare. This suggests that the direct central nervous control of the rat pars intermedia is exerted by the catecholamine neurons. A very special feature of the catecholamine fibres in the pituitary is the occurrence of peculiar, large dopamine-filled droplet-like swellings. Electron microscopically, such large axonal swellings (more than 2 in diameter) were found to contain, in addition to the characteristic vesicles and organelles, strongly osmiophilic lamellated membrane complexes resembling myelin bodies and multivesicular bodies encircling disintegrated vesicles, suggesting that these droplet fibres represent dilated stumps of spontaneously degenerating dopaminergic axons. It is suggested that the dopaminergic neural lobe fibres are undergoing continuous reorganization through degeneration—regeneration cycles, a phenomenon previously suggested for the neurosecretory axons of the neural lobe.Supported by the Deutsche Forschungsgemeinschaft.Supported by Svenska Livförsäkringsbolags Nämnd för Medicinsk Forskning, by The Medical Faculty, University of Lund and by the Ford Foundation.     

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).     

Observations on the ultrastructure of nerve cells in the brain of the earthworm,Eisenia foetida,with special reference to neurosecretion

Summary The submicroscopic structure of nerve cells in the brain of the earthworm Eisenia was studied. Six types of neurons containing morphologically different inclusions are identified. Types 1, 2 and 3 contain vesicles filled with homogeneous materials of high electron density. These are essentially similar to elementary granules in neurosecretory systems of vertebrates and invertebrates. Type 4 shows dense-cored vesicles which resemble in size catechol-containing granules as described, for example, in chromaffin cells of the adrenal gland. Type 5 has clear vesicles with a mean diameter of 400 Å. Some of these vesicles have a dense osmium deposit. Type 6 contains electron lucent vesicles with diameters of 500–800 Å. Occasionally these have osmiophilic cores. Clear vesicles of types 5 and 6 are similar to classical synaptic vesicles, while granulated vesicles resemble in size and appearance those described in adrenergic nerve endings. All six vesicle types have the same mode of origin from Golgi membranes. All of these vesicles are considered to be discharged from the perikarya into the axons entering the neuropil.     

Ultrastructure of the median eminence of the rat

Summary The ependymal cells bordering the median eminence to the third ventricle are characterised by many microvillus-like projections and bulbous cell processes of the luminal plasma membrane. The latter contain many vesicles 500–1,000 Å in diameter. Cilia with 9+2 fibrillar pattern are seen occasionally. Adhesive devices in the from of zonula adhaerens and zonula occludens are found in the apical part of the intercellular junction. Unmyelinated nerve fibres with a mean diameter of 1 and containing many electron dense granules of 830–1,330 Å are often seen between the ependymal cells.Two types of glial cells are found in the median eminence. One is characterised by a nucleus with dense blods of chromatin and dense cytoplasm, and it is associated chiefly with the nerve fibres in the region of the hypothalamo-hypophysial tract. The other type of glial cell is characterised by fine, uniformly distributed chromatin in the nucleus and a relatively pale cytoplasm and branched processes which terminate perivascularly in the base of the median eminence.Myelinated nerve fibres are seen only in the region of the hypothalamo-hypophysial tract. Only a part of them contain electron dense granules 1,330–2,330 Å in diameter.Three types of unmyelinated nerve fibres can be distinguished in the median eminence according to the size of the electron dense granules they contain: 1. Nerve fibres containing granules 1,330–2,330 Å in diameter. They are seen primarily in the hypothalamo-hypophysial tract, but also in the zona externa; 2. those containing granules with a mean diameter of 1,330 Å; and 3. those containing granules with a mean diameter of 1,000 Å. The last two types are both encountered in the hypothalamo-hypophysial tract, the zona externa and the perivascular region of the base of the median eminence. Under high magnification, the membrane of the granules show evidence of a trilaminar structure and the content of the granules with a low electron density appeares to consist of small microvesicles or globular components. Besides granules, these nerve fibres contain vesicles mostly 420 Å in diameter whose relative number increases towards the perivascular nerve endings. 53 per cent of the inclusions in the hypothalamo-hypophysial tract are granules and 47 per cent vesicles, while the corresponding percentages for the zona externa are 40 and 60 and for the perivascular nerve endings 20 and 80.The mean width of the pericapillary space is 1 , but it varies greatly. It containes many collagen fibrils and fibroblasts. The capillary endothelium is frequently fenestrated and contains many vesicles of various sizes.Two types of granules-containing cells are found in the pars tuberalis depending on the size of the electron dense granules: 1. cells containing granules with a mean diameter of 1,330 Å: and 2. cells containing granules with a mean diameter of 2,000 Å. In addition, there are occasional follicular cavities filled with amorphous material, microvilli and cilia of 9+2 fibrillar pattern.Aided by a grant from the Sigrid Jusélius Stifteise.     

The neurohypophysis of the foetal monkey

Summary The neurohypophysis of foetal macaque monkeys has been studied by optical and electron microscopy. Abundant elementary neurosecretory granules are present in the infundibular process by the middle third of gestation. Most of these are of variable electron density, and surrounded by a membrane larger than the granule, so that they appear haloed. A few fibres contain membrane-bounded electron-dense granules which show no halo. Inclusions of synaptic vesicle size are rare. The infundibular stem contains a few fibres with typical inclusions smaller than 1000 Å in diameter; the latter resemble inclusions in fibres of the median eminence.Dedicated to Professor W. Bargmann on his 60th birthday.     

The frontal ganglion of Periplaneta americana L. (insecta)

Summary The frontal ganglion, part of the stomatogastric nervous system, contains about 60 to 80 neurons, 25 to 30 m in diameter. A well developed Golgi system, producing dense-core vesicles, lysosomes, multivesicular bodies and dense bodies are abundant. Glia elements are sparsely distributed. Many nerve fibres contain granules of different size and electron density. Five groups of fibres can be distinguished: Fibres with granules of about 200 nm (type A), fibres with granules of about 160 to 170 nm (type B), fibres with granules of about 80 to 100 nm (type C) and those with synaptic vesicles of 50 nm (type D) respectively. A fifth very small type contains neither vesicles nor granules. Special attention was paid to synaptic contacts. The divergent dyad seems to be the main type in the frontal ganglion. Frequently, neurosecretory endings are observed in presynaptic position. Immunocytochemical staining of neurosecretory material closely corresponds to the distribution of type A fibres, as observed electron microscopically. Immunoelectrophoresis of extracts from frontal ganglia with polyspecific anti-neurosecretion-serum reveals a single precipitation line, indicating that the immunocytochemical localization of neurosecretory material is due to reaction with a specific as well as a crossreagent antibody.Supported by the Ministerium für Wissenschaft und Technik der DDRThe authors wish to thank Mrs. B. Cosack and Mrs. A. Schmidt for excellent technical assistance     

Auerbach's plexus of mammals and man: Electron microscopic identification of three different types of neuronal processes in myenteric ganglia of the large intestine from rhesus monkeys,guinea-pigs and man

Summary Ganglia from Auerbach's plexus of the large intestine (caecum, appendix vermiformis, colon transversum and rectum) in man, rhesus monkey and guinea-pig are composed of nerve cells and their processes, typical Schwann cells and a vast neuropil. The neuropil consists of dendrites and axons of intrinsic nerve cell perikarya and axons of extrinsic neurons. Axonal profiles in large nerve fibre bundles are of uniform size and appearance, embedded in infoldings of Schwann cell cytoplasm and contain occasional large granular vesicles, mitochondria and neurotubules. Preterminal axons widen into vesicle filled varicosities, some of which establish synaptic contact with intrinsic nerve cell bodies.At least three different types of neuronal processes can be distinguished in the myenteric neuropil according to the size, appearance and commutual proportion of vesicles present in axonal varicosities, and their ability to accumulate exogenous 5- and 6-hydroxydopamine and 5-hydroxydopa: 1. Axonal enlargements containing a major population of small electron lucent synaptic vesicles (350–600 Å in diameter) together with a small number of membrane-bound, opaque granules (800–1,100 Å). These profiles have been identified as cholinergic axons. The boutons establish synaptic contacts with dendritic processes of intrinsic nerve cell bodies; membrane specializations are found at the preand postsynaptic sites. 2. Axonal beads of sometimes very large diameter, containing an approximately equal amount of large granular vesicles (850–1,600 Å) and small, electron lucent or faintly opaque vesicles (400–600 Å). The granular core of the large vesicles is of medium electron density and may either fill the entire vesicle or is separated from the limiting membrane by a more or less clear interspace. The fibres probably belong to intrinsic neurons, and because of the similarity of the large, membrane-bound vesicles with neurosecretory elementary granules, they have been designated p-type fibres (polypeptide fibres). The granular core of the vesicles in these fibres becomes more electron dense after treatment with 5-OH-dopa. The accumulation of an amine precursor analogue in combination with a possible storage of a polypeptide substance (or an ATP-like substance) resembles the situation in several diffusely distributed endocrine cell systems. 3. Varicosities of axons equipped with small (400–600 Å) empty or sometimes granular vesicles, medium sized (500–900 Å) vesicles with highly electron dense cores and occasional large (900–1,300 Å) granular vesicles. Pretreatment with 5-OH-dopamine increases the electron density in almost all medium-sized granular vesicles and some of the large granular vesicles; an osmiophilic core develops in some small vesicles. 6-hydroxydopamine results in degenerative changes in the varicosities of this type of neurons. Concomitantly, both catecholamine analogues markedly reduce neuronal noradrenaline in the large intestine, as demonstrated by fluorescence histochemistry and in fluorimetric determinations. The ultrastructural features of these varicosities and their reaction to 5- and 6-OH-dopamine indicate that they belong to adrenergic, sympathetic nerves. No membrane specializations could be detected at sites of close contact of the adrenergic boutons with dendrites and cell bodies of intrinsic nerve cells.Supported by grants from the Deutsche Forschungsgemeinschaft.Supported by a grant from Albert Pahlsson's Foundation, Sweden. The work was carried out within a research organization sponsored by the Swedish Medical Research Council (projects No. B70-14X-1007-05B, B70-14X-712-05, and B70-14X-56-06).     

The alveolar-lining layer in the lung of the axolotl,Ambystoma mexicanum

Summary Lungs of neotenic larvae of Ambystoma mexicanum were prepared for maintaining the air-tissue boundary during aldehyde fixation. Four methods of postfixation were applied: 1) osmium tetroxide followed by en-bloc staining with uranyl acetate and phosphotungstic acid, 2) ruthenium redosmium tetroxide, 3) osmium tetroxide-ferrocyanide, and 4) tannic acidosmium tetroxide.Three types of cells line the inner surface of the axolotl lung: 1) pneumocytes, covering the capillaries with flat cellular extensions and containing two types of granules: the osmiophilic lamellar bodies, precursors of extracellular membranous material, and apical granules of unknown significance; 2) ciliated cells, also containing osmiophilic lamellar bodies; and 3) goblet cells filled with secretory granules as well as osmiophilic bodies.The extracellular material forms membranous whorls as well as tubular myelin figures, consisting of membranous backbones combined with an intensely stained substance. This material strikingly resembles the surfactant of amphibian lungs.     

Photoperiodic and osmotic influences on the ultrastructure of the hypothalamic neurosecretory system of the White-crowned sparrow,Zonotrichia leucophrys gambelii

Summary An attempt was made to correlate functional changes in the neurohypophysis of the White-crowned Sparrow, Zonotrichia leucophrys gambelii, with morphologic features on the light- and electron-microscope levels. The aldehyde-fuchsin-staining anterior median eminence possesses essentially the same ultrastructural features as the non-staining posterior median eminence. The axon terminals are characterized by the presence of a large number of small vesicles (approximately 400 Å in diameter) and occasional electron-dense granules. The more-or-less depleted anterior median eminence occasionally evident in the photosensitive bird showing testicular development is indistinguishable ultrastructurally from the more intensely staining median eminence generally characteristic of the photorefractory bird. In the median eminence, stainability and functional state do not seem to be correlated with changes in the type, size or number of vesicles. A slight increase in the number of granules was noted in the photorefractory bird but this was considered insufficient basis to account for differences in stainability.The pars nervosa, on the other hand, responded to osmotic stimuli (saline drinking water) by loss of stainability and decrease in numbers of elementary neurosecretory granules. Small vesicles are also present in the pars nervosa axon terminals, but are intermingled with neurosecretory granules in normal birds. Acute-osmotic birds, however, had axon terminals almost entirely occupied by small vesicles.It is to be emphasized that the pars nervosa and the median eminence are two structurally very different regions of the neurohypophysis. The basis for aldehyde-fuchsin staining in the median eminence appears to differ from that in the pars nervosa. The implications of these findings are considered in regard to hypothalamic control over gonadotropic activity in the White-crowned Sparrow.Dedicated to Professor Dr. W. Bargmann in honor of his 60th birthday.This investigation was supported by grant GB-2484 from the National Science Foundation to Professor Bern, grant GB-2819 from the National Science Foundation to Professor Mewaldt, and grant NB-01353 from the National Institutes of Health to Professor Farner. The authors wish to express their appreciation of the technical assistance of Mrs. Irene Brown, Mr. John Butchart, Sally S. Kibby, Mrs. Carol Nicoll, and Mr. John Striffler. Mrs. Emily Reid kindly prepared the histograms.     

Electron microscopic observations on synapse-like contacts between pituicytes and different types of nerve fibers in the anuran pars nervosa

Summary Pituicytes of Rana pipiens could be classified into two types, pale and dense, according to their relative densities of cytoplasm and the populations of free ribosomes and cell organelles. An intermediate type of pituicyte was also recognized.Lipid droplet such as are typical in the cytoplasm of mammalian pituicytes, are not in the cytoplasm of either types of frog pituicyte. Both types have long cytoplasmic processes which run among the nerve fibers, and some of them end at the pericapillary space.Nerve endings making synapse-like contacts with the cell bodies or the processes of the pituicyte are frequent. According to the structures and sizes of granules and vesicles in the nerve endings, these endings are classified into one of three types: 1) A, which appears to be a peptidergic neuronal ending containing dense granules 1,200–2,000 Å in diameter and small clear vesicles 300–400 Å in diameter; 2) B, which appear to be monoaminergic endings containing cored vesicles 600–1,000 Å in diameter and small clear vesicles 300–500 Å in diameter; 3) C, which appear to be cholinergic endings containing only small clear vesicles. Type C endings are relatively rare. In the synaptic area the axonal membranes appose those of the pituicytes across a gap of about 200 Å and numerous presynaptic vesicles are clustered or accumulated near the presynaptic membranes.The author wish to express his hearty thanks Professor Dr. A. Gorbman, Zoology Department, University of Washington, Seattle, U.S.A. and Professor Dr. H. Fujita for their helpful advices and criticisms. The frog tissues were obtained and fixed in Professor A. Gorbman's laboratory supported by U.S.P.H.S. grant NS 04887.     

Cytochemical demonstration of amine-storing vacuoles and lysosomes in the chicken thrombocytes

Summary A combined electron microscopic and cytochemical study of the thrombocytes of the chicken has clearly identified the amine-storing organelles and lysosomes. A chormaffin positive-reaction product was observed on the inner surface and the granules of the large electronlucent vacuoles. No acid phosphatase activity was localized in these amine-storing vacuoles. However, the acid phosphatase activity was observed in the small vesicles, the primary lysosomes, and in the large electron dense inclusions with myelin which may be secondary lysosomes. The results of this study suggest that the large empty vacuoles, with one or two very dense osmiophilic peripherally-situated granules, in the chicken thrombocytes are comparable to the vesicles with electron dense materials called dense bodies in mammalian thrombocytes.To whom offprint requests should be sent     

Synaptische Strukturen und Elementargranula in der Neurohypophyse des Meerschweinchens

Zusammenfassung Die Ultrastruktur des Nucleus infundibularis tuberis, der Zona interna, der Zona externa und des Hypophysenhinterlappens von Meerschweinchen wird beschrieben. Vergleichende Beobachtungen an den Nervenfasern der genannten Gebiete zeitigen folgende Ergebnisse:Die Axone der Zona interna und des Hypophysenhinterlappens enthalten gleichgeartete, große neurosekretorische Elementargranula (1,400 Å). Die Axonquerschnitte im Bereich des Nucleus infundibularis tuberis und der Zona externa weisen Granula gleichen Kalibers (800 Å) auf und lassen damit auf einen funktionell-morphologischen Zusammenhang des Nucleus infundiburis und der Zona externa schließen. Ob die kleinen Elementargranula das morphologische Substrat der sogenannten releasing factors darstellen oder ob es sich um adrenerge Axone und Endigungen mit typischen Katecholamingranula handelt, ist nicht zu klären.Es wird unterschieden zwischen echten Synapsen und synapsenähnlichen Kontakten. Nur erstere zeigen alle klassischen Synapsenmerkmale. Ihnen sind im Bereich der Neurohypophyse axosomatische und interaxonale Synapsen zuzuordnen. Zona externa und Hypophysenhinterlappen stellen neurohämale Kontaktzonen dar und zeichnen sich durch gleichartig konstruierte Synapsen aus. Neben interaxonalen Synapsen treten vor allem neurokapilläre Kontakte in den Vordergrund. In der Zona externa sind die Tanyzyten synaptisch mit Axonen verknüpft, so wie im Hypophysenhinterlappen die Pituizyten synaptische Verbindungen mit Nervenfasern eingehen. Die synapsenähnlichen Bildungen im Verlauf und an den Enden der Axone können somit neurokapillärer, neurotanyzytärer und neuropituizytärer Natur sein. Sie enthalten neben den synaptischen Vesikeln auch meist kleine oder große Elementargranula. Die ähnliche Morphologie der synaptischen Bildungen in der Zona externa und im Hinterlappen läßt einen gleichgearteten Inkretionsmechanismus beider neurohypophysärer Abschnitte vermuten. Tanyzyten und Pituizyten könnten dabei eine Überträgerfunktion ausüben. Eine rezeptorische Funktion der Tanyzyten wird gleichfalls diskutiert.Die Drüsenzellen der Pars intermedia der Hypophyse sind durch direkte neuroglanduläre Kontakte mit den Neuronen des Hypothalamus verknüpft. Die Axone stülpen sich hierbei tief in das Zytoplasma der Drüsenzellen ein. Es entstehen dadurch beim Meerschweinchen drei nervöse Endigungsformen, die Synapsen ausbilden: 1. Endigungen, die nur synaptische Vesikel enthalten; 2. Endigungen mit synaptischen Vesikeln und kleinen Granula; 3. Endigungen mit synaptischen Vesikeln und großen Granula.Zwischen den Drüsenzellen der Pars infundibularis der Adenohypophyse sind ebenfalls Axonquerschnitte zu beobachten. Es handelt sich dabei entweder um vegetative Faserbündel oder Nervenfasern mit kleinen Granula wie in der Zona externa (800 Å).

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Summary The ultrastructure of the nucleus infundibularis tuberis, the inner and outer layer of the median eminence and the posterior lobe of the guinea pig are described. Comparative studies on the nerve fibres of these regions lead to the following conclusions:The axons of the inner layer of the median eminence and of the posterior lobe contain similar types of large, neurosecretory elementary granules (Diameter 1400 Å).The cross-sections of the axons in the area of the nucleus infundibularis tuberis and of the outer layer of the median eminence exhibit the same sized granules (Diameter 800 Å), which points to a functional-morphological relationship between the two. Whether the small elementary granules represent the morphological substrate of the so-called releasing factors, or whether it is a question of adrenergic axons and terminations with typical catecholamine granules, is undecided.A distinction is made between true synapses and synapse-like contacts. Only the former display all the classical characteristics of synapses. To this sort must be classed the axosomatic and interaxonal synapses in the neurohypophysis. The external layer of the median eminence and the posterior lobe are distinguished by neurohaemal contact areas and show similarly constructed synapses. Of particular prominence, besides interaxonal synapses, are neurocapillary contiguities. Just as in the posterior lobe the pituicytes show synaptic connections with nerve fibres, so are the tanycytes in the outer layer of the median eminence in synaptical contact with axons. Thus the synapse-like formations along and at the endings of the axons can be of a neurocapillary, neurotanycytial and neuropituicytial nature. They contain, apart from the synaptic vesicles, mainly small but also large elementary granules. The similar morphology of the synaptic formations in the outer layer of the median eminence and the posterior lobe suggests the existence of a similar mechanism of internal secretion in both these neurohypophysial areas. Tanycytes and pituicytes could exercise a carrier function. A possible receptor-function of the tanycytes is considered.The glandular cells of the pars intermedia of the hypophysis are linked by means of direct neuroglandular contacts with the neurons of the hypothalamus, whereby the axons make deep incursions into the cytoplasm of the glandular cells. In the guinea pig three types of termination can be observed that form synapses: 1. terminations that contain only synaptic vesicles; 2. terminations with small granules; 3. terminations with large granules.Cross-sections of axons can also be observed between the glandular cells of the pars infundibularis of the adenohypophysis. Here they can be identified either as vegetative fibre-bundles or as nerve fibres with small granules, such as occur in the outer layer of the median eminence (Diameter 800 Å).

     

Histoenzymatic characterization of sub-types of Type I fibres in fast muscles of rats

Summary The histochemical activities of succinic dehydrogenase (SDH), myofibrillar Adenosine triphosphatase (ATPase) and alpha glycerophosphate dehydrogenase were studied in serial sections of rat vastus lateralis (red) (RVL), gastrocnemius and diaphragm muscles. Three main fibre-types were distinguished. The Type I fibres of RVL and gastrocnemius muscles fell into two distinct groups: one category-Type IA showed very low ATPase activity. The second category of Type IB fibres displayed moderate ATPase reaction. The Type IA fibres were divisible into two sub-groups when tested for SDH reaction. Type IA₁ fibres possessed a homogenous distribution of diformazan·granules throughout the fibre: Type IA₂ fibres displayed characteristic moth-eaten pattern of diformazan localization. The diaphragm muscle did not show either Type IB or Type IA₂ varieties. The great majority of Type I fibres were sub-type IA₁ in the three fast muscles studied. It is also demonstrated here that an inherent heterogeneity exists between Type I fibres of diaphragm and leg muscles in regard to -GPD localization. This histochemical data emphasizes the fact that subdivision of Type I striated muscle fibres of mammalian animals into two sub-types is only approximate and that a further subcategorization is possible.     

Specific immunoelectronmicroscopic localization of vasopressin and oxytocin in the neurohypophysis of the rat

Summary An immunoelectronmicroscopic method for the specific localization of neurohypophyseal hormones was developed in neurohypophyses of Wistar and Brattleboro rats, the latter strain being homozygous for diabetes insipidus. If the proper precautions were omitted, a marked cross reactivity between antivasopressin and antioxytocin preparations was found. Cross reaction of an antivasopressin plasma with oxytocin, at a dilution of less than 11600, resulted in electron density of all granules within neurosecretory fibres of the Brattleboro and Wistar neurohypophyses. However, this cross reactivity could be eliminated either by sufficient dilution of the antiplasma, or by its purification. Purification of the antibodies was performed by absorption to agarose beads coated with the cross reacting component. Upon incubation with antivasopressin (diluted unpurified 11600 or purified 180) and unpurified antioxytocin (1400) plasma, sections of a Wistar neurohypophysis revealed two types of neurosecretory fibres, containing either electron dense or lucent granules. Oxytocin and vasopressin containing neurosecretory fibres were found as clusters in the neurohypophysis. The specificity of both unpurified antivasopressin (11600) and antioxytocin (1400) plasma was confirmed on serial sections of a Wistar neurohypophysis, alternately incubated with the solutions of the two antibodies.These data prove that the one-cell-one-hormone hypothesis holds true for the hypothalamic-neurohypophyseal system.The authors wish to thank Dr. L.A. Sternberger (Edgewood Arsenal, Md., U.S.A.) for the peroxidase-anti-peroxidase complex, Dr. J.G. Streefkerk (Free University, Amsterdam) and the members of our project group on neuroendocrinology for their suggestions and critical remarks, and Mrs. M. Mud, Mr. P. Wolters and Mrs. A. van der Velden for their skilful assistance     

On T-tubule openings at the sarcolemma of white fast-twitch muscle fibres in fish and frog

Summary In white muscle fibres of a teleost fish T-tubule openings may occur regularly at all Z-disc levels between adjacent peripheral myofibrils, the T-tubule openings thus occurring at a density of ca. 0.9 m^-2.In frog white fibres, T-tubule openings are infrequently seen in material fixed like the fish material. In material prepared according to the albumin method of Gray (1975, 1976 a, b) which renders the muscle fibres swollen, straight tubules or sometimes chains of vesicles instead are seen opening at the sarcolemmal surface. Such tubules occur at a higher density than expected from experiments with local activation of contraction. Lability and dynamics within the T-system normally and during fixation are discussed.     

An electron microscopical investigation of the follicle gland (cerebral gland) and of some neurosecretory cells in the lateral lobe of the cerebral ganglion of the pulmonate gastropod Lymnaea stagnalis L.

Summary The ultrastructure of the follicle gland and of some Gomori-positive neurosecretory cells in the lateral lobes of the cerebral ganglia of Lymnaea stagnalis is described.The follicle wall consists of epithelial cells containing secretion granules, and of processes of lateral lobe nerve cells bearing cilia, including the processes of bipolar neurosecretory B-cells. The ultrastructure of the follicle of Ancylus fluviatilis and Planorbarius corneus appeared to be very similar to that of L. stagnalis. From the ultrastructure of the follicle wall and lumen, no conclusions can be drawn as to its formerly proposed possible functions (sense organ, endocrine organ, neuroendocrine organ). Of three neurosecretory cell types (B-cells, canopy cells, droplet cells), the positivity to chrome-haematoxylin and paraldehyde-fuchsin appeared to be due to elementary granules of different size and appearance. This finding supports in a particular sense the view that results obtained with the neurosecretory stains, should be judged carefully. Also in ordinary neurons elementary granules can be found, at times in great numbers. Several types of elementary granules (at least 6) could be distinguished. Their character and function (neurohormones, neurotransmitters) are not clear.