Electron microscopic study of monoaminergic fibers in the posterior lobe of the rat hypophysis]

Monoaminergic fibers and their swellings containing dense core vesicles, 700-1000 A in diameter, were found by electron microscopic studies in the posterior pituitary of rat. Most of them are situated far from capillaries and are surrounded by neurosecretory fibers and pituicytes. There are usually no specialized structures at the sites of contact between them. Single monoaminergic fibers come in contact with the capillaries and even penetrate the pericapillary space. Large swelling of these fibers which sometimes occur contain different polymorphous inclusions, degenerating mitochondria and numerous small tubules along with the dense core vesicles.     

An electron microscopical study of the human neurohypophysis

Summary The human posterior pituitary obtained at operation was studied with the electron microscope.The fine structure of the human neurohypophysis was found to be basically similar to that of the other mammalian and cold-blooded vertebrates examined.In addition to the nerve fibres and their swellings two cell types were seen: the pituicytes and the cells in the perivascular spaces — the fibroblasts.The distribution, size and shape of the pituicytes was variable. Long pituicyte processes were seen (sometimes > 20 in length) running between nerve fibres and their swellings, and ending on or in the perivascular space.Several types of large nerve swellings were seen: a) those containing only elementary granules, mitochondria and small vesicles; b) modified swellings characterised by contorted mitochondria and mitochondrial fragments. The latter were often surrounded by single or multiple highly osmiophilic myelin-like membranes; c) multilamellar bodies characterised by concentric osmiophilic myelin-like membranes or lamellae apparently dividing the swellings into separate compartments. The small vesicles, appearing in considerable numbers in such swellings, are suggested to originate from the osmiophilic lamellae.While some true synaptic vesicles may occur in non-secretory nerve fibres, the small vesicles (250–600 Å) seen in most nerve fibre swellings were thought to be derived from elementary granules.Repeated swellings were seen in individual nerve fibres and their functional significance discussed.The electron-dense material within the elementary granules was variable and is suggested to be dependent on the functional state of the neurohypophysis rather than on hormone content. Internal structure was often seen in the elementary granules. The impression is gained that the osmiophilic content of the elementary granules was composed of microvesicles possibly representing molecular aggregations of the hormone-neurophysin complex.     

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.     

Investigations on the hypothalamo-neurohypophysial neurosecretory system of the grass frog (Rana pipiens) after transection of the proximal neurohypophysis

Summary With the onset of degeneration of the neurosecretory nerve fibers following transection of the proximal neurohypophysis, the pituicytes phagocytize these nerve fibers. Concomitant with a considerable increase in the size of the pituicytes, which reaches a peak between 8 and 10 days after the transection, the following sequence of events can be observed: reduction of the amount of intergranular axoplasm, increase in the size of some granules, partial or total loss of the electron density of the neurosecretory granules, loss of granule membranes, fusion of some granules, polymorphous axonal content in digestion vacuoles, formation of multilamellate bodies, digestion vacuoles with moderately electron dense peripheral material, empty digestion vacuoles. At about 12 days after the transection many vacuoles appear which subsequently disappear as the pituicytes shrink. Free neurosecretory granules resulting from the disappearance of the axolemma remain intact in the intercellular and perivascular connective tissue spaces and are eventually phagocytized by pituicytes and pericytes.Phagocytosis is considered to be a basic function of pituicytes. The problems related to this function as well as the possible implications for the interpretation of Herring bodies are discussed.This investigation was supported by Grant No. NB-06641 of the National Institute of Neurological Diseases and Blindness. The technical assistance of Mrs. Mildred Floyd and Christa Cooper is gratefully acknowledged.Dedicated to Prof. Dr. H. Grau on the occasion of his 70th birthday.     

Herring bodies; an electron microscopic study of local degeneration and regeneration of neurosecretory axons

Summary The Herring bodies in the posterior lobe of the bovine hypophysis are very large (2–600 ) and can be classified into three types. The type I Herring body contains an accumulation of neurosecretory granules. These Herring bodies are very scarce and should not be confused with the numerous, but small, axonal swellings which also contain neurosecretory granules.The type II Herring body is characterized by the presence of a varying number of normal, moderately electron dense and empty vesicles, autophagic vacuoles, multilamellate bodies and occasional mitochondria. These Herring bodies are frequently observed.The type III Herring body is typified by the presence of dense vesicles connected to tubular formations which contain material of variable electron density, of filaments, and of long slender and very numerous mitochondria.The presence of multilamellate bodies and autophagic vacuoles suggests that the type II Herring body is in a degenerating phase. This concept is further substantiated by the similarity between this type of Herring body and transected neurosecretory axons in which degeneration is occurring.A similar comparison suggests that the type III Herring body is undergoing a regenerative process. Our current concept of the structure and function of Herring bodies is revised in the discussion.This work was supported by grants 5 RO1 NB 06641 NEUA and 5 R0107492 NEUA from the National Institutes of Health and the Space Sciences Research Center of the University of Missouri. The technical assistance of Mrs. G. Clark and Mr. R. Faup, and the clerical assistance of Mrs. S. Schmidt are gratefully acknowledged.Fellow of the Conséjo National de Investigaciones Científicas y Tecnicas de la República Argentína.     

Ultrastructure of the rabbit neurohypophysis with special reference to the release of hormones

Summary The ultrastructure of normal neural lobes of adult rabbits is described. The major part consists of non-myelinated fibres containing neural swellings at intervals. These enclose the neurosecretory granules, mitochondria and a few microtubules. The swellings are connected by narrow nerve fibres with parallel neurotubules but no granules. The Herring bodies resemble large neural swellings and may contain many neurotubules. They are sometimes enclosed by multilamellate sheaths. True myelinated nerve fibres full of granules also occur. The relationship between the neural swellings and pituicytes is discussed. The pituicyte cytoplasm contains many delicate fibrils but it does not resemble an active secretory cell.The blood vessels are characterised by an unusually wide perivascular space containing two condensed layers of basement membrane. These layers can be traced into channels which extend from the perivascular spaces and break up the tissue into lobules. It is suggested that these channels form a mucopolysaccharide spongework that may be important in relation to the release of hormones.The common feature of ether-treated, dehydrated and immature animals is the absence of electron-dense cores from the neurosecretory granules. Such glands are not completely depleted of hormones and much of the hormonal activity is still associated with a sedimentable fraction. Loss of electron density may be due to diffusion of the neurophysin carrier or to a change in configuration of the neurophysin molecules resulting in inaccessibility of both osmiophilic and hormone binding sites. The unbound hormone may be stored in the mucopolysaccharide sponge-work and released gradually into the blood stream.This work is offered as a tribute to Dr. Berta Scharrer on the occasion of her 60th birthday and in appreciation of her leading contribution over many years towards the understanding of the concept of neurosecretion.We are grateful to the Wellcome Trust for providing the Siemens Elmiskop 1 electron microscope used at the Dept. of Human Anatomy, Oxford, and to the D.S.I.R. for other assistance. We also acknowledge valuable discussions with our colleagues, especially Professors H. Heller and W. Bartley.     

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     

Electron microscopy of the slime moldPhysarum polycephalum

Summary Electron micrographs of fixed sections of the plasmodium of the classic protoplasmic material,Physarum polycephalum, are presented. Numerous round nuclei having well-defined membranes and containing one to three dense nucleoli were especially prominent in the plasmodium. In the surrounding cytoplasm, many irregular membrane-limited bodies were evident, some containing tiny rod-like elements and others with inner structures resembling mitochondria. In addition, there can be seen many small dense granules plus various vacuoles and other inclusions.     

Studies on the transport of secretory granules in the magnocellular hypothalamic neurons of the rat

Intrathecal administration of 20 mug of vincristine sulphate in the rat induced in vivo the formation of paracrystalline inclusions mainly in axonal processes. This is associated with an impairment in the migration of neurosecretory granules as shown by their accumulation in the perikarya of the magnocellular neurons. The granules are intermixed with numerous dense bodies of various shape, sometimes with a fibrillar content, and probably of lysosomal origin. In addition to the impairment of the flow of neurosecretory granules, there is also a striking accumulation of mitochondria and synaptic vesicles, and an apparent proliferation of the smooth endoplasmic reticulum. In the posterior lobe, the axonal endings contain a large number of neurosecretory granules, intermingled with bodies of varying shapes and electron density. Occasionally, a dense membrane surrounding a group of elementary granules is observed, reacting positively for acid phosphatase. This suggests an attempted crinophagia.     

鳗鲡繁殖生物学研究 Ⅱ.下海雌鳗脑垂体超显微构造的研究

神经垂体主要由神经分泌纤维、脑垂体细胞和微血管组成。神经分泌纤维主要是无髓鞘神经纤维,也有一些是有髓鞘神经纤维。神经垂体中还有一些多层体构造。神经分泌纤维有两个基本类型:A型纤维含有直径为1250—1750Å的神经分泌颗粒;B型纤维含有直径为450—1000Å的颗粒状囊泡。腺垂体的分泌细胞按其超显微构造的特点和所含的分泌颗粒大小不同可以区分为六个类型:催乳激素分泌细胞、促甲状腺激素分泌细胞,促肾上腺皮质激素分泌细胞、促生长激素分泌细胞、促性腺激素分泌细胞和后腺垂体的分泌细胞。       

Giant mitochondria in the human myocardium — Morphogenesis and fate

Electron-microscopical examination of myocardial biopsy material obtained from a 58-year-old man revealed giant mitochondria having a length of 30 micron. Such giant mitochondria (also called megamitochondria) evolve by fusion of the membranes of numerous large individual organelles. Initially they are polymorphous and of diverse shapes, but later they are seen to be arranged among and parallel with the filaments of the myocardial fibres, where they present a smooth, cigar-like appearance. Deposits of glycogen in the giant mitochondria result from the accidental inclusion of glycogen granules during fusion. The abundance of cristae, which often form dense stacks in the megamitochondria, is evidence for the genuine synthesis of new cristal material. The aetiological and exact pathogenetic mechanisms of the evolution of giant mitochondria in the myocardium, as also their function, remain unclear. Particularly large specimens are obviously inefficient and disturbing to the cell. They are degraded by autophagy.     

Fine structure of pars neuro-intermedia of the loach,Misgurnus fossilis L.

Summary Two types of glandular cells are present in the pars intermedia of the loach, Misgurnus fossilis. Basophils are characterized by the presence in their cytoplasm of numerous secretory granules containing electron-dense and homogeneous material and by scarce endoplasmic reticulum. Weak acidophils contain in their cytoplasm abundant endoplasmic reticulum and numerous granules of different electron densities.The distal part of the neurohypophysis is composed of several types of neurosecretory axons, strongly branched pituicytes, numerous capillaries, and connective tissue elements. The axon terminals form the neuroglandular, neurovascular and neurointerstitial contacts. Some axon terminals are closely apposed to the basement membrane separating neurohypophysis from meta-adenohypophysis. At points of absence of continuity of this membrane, some neurosecretory axons become directly contiguous with cytoplasmic membranes of the intermedia cells.The investigation was partly supported by a research grant from the Zoological Committee of the Polish Academy of Sciences.     

Swelling of neurosecretory fibers (Herring bodies) in the reorganized hypophyseal stalk following hypophysectomy]

Herring bodies were revealed in the reorganized hypophyseal stalk of rats two months after hypophysectomy both in normal laboratory condition and under salt load. We observed Herring bodies with a storage of neurosecretory granules and neurohormones, as well as with massive destruction and disappearance of neurosecretory granules due to release of hormones in neuroplasm. Many Herring bodies were characterized by degenerative changes probably associated with aging of neurosecretory cells or their lesion due to the operation. Occasionally we revealed Herring bodies which contained a network of dilated neurotubules, that probably reflected either the reparative phase of secretory cycle of corresponding neurosecretory cells or restoration of their functions after hypophysectomy. Herring bodies were often situated around capillaries, but they were separated from perivascular space with narrow sprouts of pituicytes.     

Organization and ultrastructure of the nervous system in Catenulida (Turbellaria)

Summary The fine structure of the nervous system of lower fresh-water Turbellaria was investigated. This system consists of a brain, short nerve trunks and a network of subepithelial nerve cells. The brain structure shows ganglion cells and their proccesses, forming a neuropil. The ganglion cells are most probably unipolar. The perikaryon contains numerous ribosomes, few mitochondria, and golgi complexes. Thus it corresponds structurally to neuroblasts of higher animals. The neurites contain mitochondria, neurotubules, and empty or dense core vesicles. All (inStenostomum sp.) or some of the nerve cells (inCatenula sp.) have neurosecretory vesicles.     

Studies on the transport of secretory granules in the magnocellular hypothalamic neurons

Summary The axonal flow of neurosecretory elementary granules has been studied in the paraventricular neurons of the rat (PVN), with the help of three techniques: light microscopy, radioautography after labelling with ³⁵S-L-cysteine, and electron microscopy.Colchicine treatment does not alter the uptake of ³⁵S cysteine in the PVN but the flow of labelled neurosecretory material towards the neurohypophysis is interrupted. Interruption of the axonal flow is also evidenced by the stagnation of neurosecretory granules at the periphery of the neuronal cytoplasm and by the presence of numerous axonal swellings, heavily loaded with neurosecretory granules and often containing abnormal elongated granules, surrounded by a single membrane, oriented more or less parallely to the long axis of the axons. Other cell organelles and neurotubules are not altered. The present experiments bring further evidence of the arrest by colchicine of the axonal flow of secretory granules without apparent changes of the neurotubules.This work was supported by a grant (1970/1971) from the Belgian National Fund for Scientific Research (J. F.-D), and by grant No 1120 from the Belgian National Fund for Medical Research (P. D).The authors wish to thank Mrs. A.-M. Hunninck-Couck for her devoted and skillful technical assistance, and are endebted to Dr. J. C. Heuson for kindly supplying the rats.     

Ultrastructural changes in the gracile nucleus of the spontaneously diabetic BB rat.

The present study describes the structural changes in the gracile nucleus of the spontaneously diabetic BB rat. At 3-7 days post-diabetes, axons, axon terminals and dendrites showed electron-dense degeneration. Degenerating axons were characterized by swollen mitochondria, vacuolation, accumulation of glycogen granules, tubulovesicular elements, neurofilaments and dense lamellar bodies. Degenerating axon terminals consisted of an electron-dense cytoplasm containing swollen mitochondria, vacuoles and clustering of synaptic vesicles. These axon terminals made synaptic contacts with cell somata, dendrites and other axon terminals. Degenerating dendrites were postsynaptic to normal as well as degenerating axon terminals. At 1-3 months post-diabetes, degenerating electron-dense axons, axon terminals and dendrites were widely scattered in the neuropil. Macrophages containing degenerating electron-dense debris were also present. At 6 months post-diabetes, the freshly degenerating neuronal elements encountered were similar to those observed at 3-7 days. However, there were more degenerating profiles at 6 months post-diabetes compared to the earlier time intervals. Terminally degenerating axons were vacuolated and their axoplasm appeared amorphous. It is concluded that degenerative changes occur in the gracile nucleus of the spontaneously diabetic BB rat.     

ISOLATION OF NERVE ENDINGS FROM THE POSTERIOR PITUITARY GLAND : Electron Microscopy of Fractions Obtained by Centrifugation

Bovine posterior pituitary glands were homogenized in 10 per cent sucrose and fractionated by differential centrifugation. The following centrifugation procedure resulted in the most satisfactory separation: 1000 g for 15 minutes—nuclei, connective tissue, basement membranes with associated endothelium, giant nerve endings, and whole pituicytes; 4200 g for 15 minutes—free nerve endings, including Herring bodies; 17,000 g for 15 minutes—mitochondria; 68,000 g for 15 minutes—neurosecretory granules. Electron microscopic examination was carried out on whole tissue and on the isolated fractions. Isolated nerve endings were examined also by negative staining techniques. Isolated nerve endings retain an apparently normal complement of mitochondria, neurosecretory granules, and microvesicles ("synaptic" vesicles). The free nerve endings closely resemble those observed in sections of intact posterior pituitary tissue. Free microvesicles were not observed in any of the fractions isolated and apparently sediment at centrifugal forces higher than those employed in this study.     

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

A combined electron microscopic and cytochemical study of the thrombocytes of the chicken has clearly identified the amine-storing organelles and lysosomes. A chromaffin positive-reaction product was observed on the inner surface and the granules of the large electron-lucent 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.     

Fine structure of the hemocytes and nephrocytes of Argas (Persicargas) arboreus (Ixodoidea: Argasidae)

The fine structure of the hemocytes and nephrocytes in Argas (Persicargas) arboreus is described and compared with that of similar cells in other tick species and insects. The hemocytes are of three types: prohemocytes, with a relatively undifferentiated cytoplasm lacking granular inclusions and probably serving as progenitors of the other hemolymph cell types; plasmatocytes, containing abundant mitochondria, cisternae of rough endoplasmic reticulum (RER), and free ribosomes, as well as some small granular inclusions; granulocytes, the predominant cell type in the hemolymph, containing numerous granules of variable electron density and maturity, and pseudopodia-like processes on the cell surface. Plasmatocytes and granulocytes are phagocytic and possibly also have other functions in the tick body. Cells with intermediate features appear to be in a stage of transition from plasmatocyte to granulocyte. Nephrocytes contain vacuoles enclosing fibrillar material, some electrondense granules, and moderate amounts of the active organelles—mitochondria, RER, and ribosomes. The nephrocyte is surrounded by a basal lamina and its plasma membrane infolds to form many deep invaginations coated by a fine fibrillar material. Openings to these invaginations are closed by membranous diaphragms. Coated tubular elements connect the surface invaginations with large coated vesicles, which appear to be specialized for internalization of proteins from the hemolymph. The dense granules may represent an advanced stage of condensation of ingested protein and thus may be lysosomal residual bodies, or they may develop by accumulation of secretory products.     

Alterations in the neurohypophysis of rats treated with chlorphentermine or tricyclic antidepressants

Summary Rats were treated with several amphiphilic, cationic compounds that are known to cause generalized lipidosis (chlorphentermine, iprindole, 1-chloro-amitriptyline, clomipramine). After prolonged drug treatment the neurohypophysis showed severe morphologic alterations particularly in Herring bodies (HB), perivascular cells, and pituicytes. HBs displayed the following abnormalities: (a) great accumulation of autophagic vacuoles that contained neurosecretory granules (NSG); (b) numerous coarse osmiophilic conglomerates; (c) masses of multilamellated material; (d) reduced numbers of intact NSGs. Perivascular cells accumulated large lamellated inclusion bodies. Pituicytes contained membrane-bound crystalloid inclusion bodies. The noxious effect of chlorphentermine and 1-chloro-amitriptyline was more pronounced than that of iprindole and clomipramine.The alterations in perivascular cells and in pituicytes are typical of drug-induced lipidosis. The lesions in HBs are tentatively explained as follows: HBs were previously proposed to be the sites of normally occurring intraaxonal disposal of excess neurosecretory material. The present experimental conditions interfere with this catabolic process. Incomplete digestion of the axoplasmic constituents due for disposal might result in abnormal accumulation of NSG-containing autophagic vacuoles, osmiophilic conglomerates, and multilamellated material. This eventually leads to degeneration of HBs.The functional implications of the neurohypophysial lesions remain to be elucidated by functional experiments.This work was supported by the Deutsche Forschungsgemeinschaft (Lu 172/2) and the Stiftung Volkswagenwerk. The skilful technical assistance of Mrs. R. Worm is thankfully acknowledged