Light,fluorescence and electron microscopic studies on “neurosecretion” in tritonia diomedia bergh (Mollusca,Nudibranchia)

Summary Membrane-limited electron-dense inclusions designated as elementary neurosecretory granules have a characteristic distribution in cerebropleural ganglia of the nudibranch snail Tritonia diomedia. They occur in the neuropile and also in individual nerve fibres, connectives and commissures. These granules have been found neither in perikarya of nerve cells nor in proximal segments of their processes.Specific fluorescence obtained in Tritonia preparations with Sterba's pseudoisocyanin method for neurosecretory products has the same pattern of location.The distribution of stainable material in preparations prepared with ordinary neurosecretory procedures (chrome haematoxylin-phloxin after Gomori-Bargmann and paraldehydefuchsin after Gomori-Gabe) is similar to that described by different authors in other gastropods, but strongly differs from the locationof elementary neurosecretory granules and of pseudoisocyanin-positive material. The adequacy of different histological methods for studying neurosecretion in gastropods is discussed.     

The influence of the antimitotic drug CCNU on the neurosecretion of rat hypothalamo-hypophyseal system

The purpose of this investigation was to evaluate the influence of the antimitotic drug CCNU on the morphology of the hypothalamo-hypophyseal neurosecretory system of rat. Adult Wistar rats were treated intragastrically with 2.5 mg CCNU once a week during 3 consecutive weeks and 5 mg at the end of the 4th week. The brains and hypophyses were fixed in Zenker-formol solution. Paraffin slices were stained with chromhematoxylin to demonstrate neurosecretory material and with cresyl violet. PAS reaction was also performed. The experiment resulted in disturbances of the neurosecretory function of the hypothalamo-hypophyseal system in form of alteration in the content of neurosecretion in the neuronal cytoplasm and processes within supraoptic and paraventricular nuclei as well as in the neurohypophysis. The morphometric measurements showed enlargement of the cell nuclei and cytoplasm volumes in the nucleus supraopticus of hypothalamus.     

Occurrence of the neurosecretory substance during the embryonic development of the guinea pig

Summary The time and place of occurrence of the neurosecretory substance in the hypothalamo-neurohypophysial system of the guinea pig during embryogenesis have been investigated. Use is made of the luminiscence of neurosecretion stained with paraldehydefuchsin when observed in a dark field. It is established that the neurosecretory material occurs first in some cells of the supraoptic nucleus about the 39th–40th day of intrauterine development. In the paraventricular nucleus it is observed about the 44th–45th day. At that time it is seen also in Eminentia mediana and in the neurohypophysis. In the latter, however, it is in a smaller amount than in the areas situated above it. These results are discussed in connection with the transport theory of Bargmann and Scharrer.     

Ultrastructural changes of the neurohypophysis of the rat after castration

Summary The infundibular processes of the neurohypophysis of male and female rats were studied after different periods of castration. After seven days an increase in neurosecretory granules was observed. Two types of neurosecretory nerve endings were identified: dark ones, with dense neurosecretory elementary granules of 1600 A, and clear ones, with lighter neurosecretory granules of 1800 A. Protoplasmatic pituicytes showed a large increase in lipid granules together with a general hypertrophy. After one week of castration but with hormonal therapy the protoplasmatic pituicytes appeared normal or even showed less lipid granules than in the controls.With one month of castration the changes already mentioned in the nerve endings and pituicytes were more pronounced and after six months even more accentuated. Two types of neurosecretory nerve endings were clearly identified and the protoplasmatic pituicytes were loaded with lipid granules.The probable significance of the two different neurosecretory axons was discussed in relation to recent studies on the isolation of neurosecretory terminals from the neurohypophysis. The changes in the protoplasmatic pituicytes were considered in relation to the possible significance of the lipid granules.Supported by grants from the Consejo Nacional de Investigaciones Cientificas y Técnicas and by the Air Force Office of Scientific Research (AF-AFOSR 963-67).We are deeply indebted to Mrs. Defilippi-Novoa and Mr. Alberto Saenz for their skillful assistence.Associated Investigator, Consejo Nacional de Investigaliones Científicas y Técnicas, Argentina.     

The effect of castration upon the ultrastructure of the rat hypothalamus

Summary The neurosecretory hypothalamic nuclei and the inner zone of the median eminence of castrated rats were studied under the electron microscope. After one month of castration all the neurosecretory neurons of both nuclei show signs of hyperactivity characterized by dilated cisternae of the endoplasmic reticulum containing a macromolecular filamentous material and an increase in the number of ribosomes. After six months of castration, some neurosecretory neurons show an increased number of neurotubules and larger lysosomes than in the controls. Other neurons show a very significant hypertrophy of the endoplasmic reticulum, with large amounts of intracisternal filamentous material. These cells have few neurosecretory granules and in the adjacent synapses the number of granulated vesicles is increased. In the supraoptic nucleus there are two kinds of neurosecretory axons: the clear ones, which are similar to those that appear in control animals and the dark ones, which have smaller elementary granules. In the inner zone of the median eminence the axons show an increase in the number of neurosecretory granules with respect to the controls. After supplementary administration of sexual hormones, all the modifications produced by castration disappear. The ultrastructural changes observed in the neurosecretory nuclei after castration are discussed in relation to those previously described in the neurohypophysis under the same experimental conditions. A feedback regulatory action of sex hormones on hypothalamic neurosecretory neurons is postulated.Supported by grants from the Consejo Nacional de Investigaciones Científicas y Técnicas and by the Air Force Office of Scientific Research (AF-AFOSR 963-67).We are deeply indebted to Mrs. Defilippi-Novoa and Mr. Alberto Saenz for their skillful assistence.     

Electron microscopy of the neurohypophysis in normal and histamine-treated rats

Summary The fine structure of the neurohypophysis has been studied in normal and histamine-treated rats with particular reference to capillary relationships and to the neurosecretory vesicles. Certain new information on the pericapillary space has been developed and is discussed with reference to the existing literature on the posterior hypophysis and other endocrine organs. The membrane-bounded pericapillary space penetrates deeply between surrounding nerve terminals and pituicyte processes, seemingly forming a pervasive metabolic lake which undoubtedly is of physiological significance for metabolic and secretory exchange.Following histamine treatment, the neurosecretory vesicles lose their electrondense centers, the mitochondria in the nerve terminals become swollen, and the capillary endothelium shows evidence of increased pinocytosis. In one rat subjected to painful stimuli, only the first and last of the above alterations are prominent. The experimental results are interpreted in the light of previous work done by other authors, as additional evidence for the identity of the stainable neurosecretion of light microscopy and the neurosecretory vesicles of electron microscopy.The author is greatly indebted to Prof. Dr. med. W. Bargmann for the use of electron microscope facilities and for other invaluable help during the course of the work. To Frau Dr. A. Knoop of the Anatomical Institute in Kiel, and to Frl. Dr. Weichan of Siemens & Halske AG in Berlin, for aid in obtaining the micrographs, a grateful acknowledgement is extended.Presented in part at the 55th meeting of the Anatomische Gesellschaft in Frankfurt/Main, April 9–12, 1958.United States Public Health Service Special Research Fellow, on leave from Department of Anatomy, University of Minnesota Medical School, Minneapolis, Minnesota, USA.     

The structure of the hypothalamic neurosecretory cells of Zoarces viviparus L. under the conditions of constant dark and light during the reproductive cycle

Summary The Structure of the hypothalamic neurosecretory cells during their activity in continuous light and dark conditions and depending on the seasonal alteration has been investigated in Zoarces viviparus L. in the level of light and electron microscopy.The depletion of AF- or AT-stainable material, of the elementary neurosecretory granules and the disappearance of smooth-surfaced vesicles occur during April and June. The accumulation of the stanable material as well as the elementary neurosecretory granules and the smooth-surfaced vesicles has been observed in the cell body in late September.An excess increase in number of the smooth-surfaced vesicles of dark-induced animals and light-induced animals kept in a black stained tank is apparent. On the other hand, the disappearance of the elementary granules and the smooth-surfaced vesicles and an enlargement in the reletive nuclear surface of the neurosecretory cells of light-induced animals which were kept in a gray stained tank in April is also evident.Taking into consideration the responsiveness of both the elementary neurosecretory granules and the smooth-surfaced vesicles in relation to the external environment as well as their topographical arrangement in the cell body the possible differences in their origin and function are discussed.Numerous studies indicate that the physical environment is in part responsible for the functional properties of the hypothalamic neurosecretory centers of various vertebrates. In the level of light microscope, it has been repeatedly shown that the neurosecretory cells are activated in the animals subjected to continuous illumination, and in those subjected to long daily photo period (Oksche et al., 1958; Fiske and Greep, 1959; Öztan and Gorbman, 1960; Satyanesan, 1965). The enlargement of the nuclei and the amount of Gomori — or aldehyde fuchsin — stainable material, as well as the enzymatic activity, were used as the criteria of cellular activity in the histological preparation. In the level of electronmicroscope it has been shown that Gomori positive material (Bargmann, 1949) is represented as aggregated elementary neurosecretory granules in the ultrathin sections of neurohypophysis (Bargmann et al,. 1957). Although the fine structure of the hypothalamic neurosecretory cells of various fishes and higher vertebrates have been studied in normal and experimental conditions (Palay, 1960; Lederis, 1962, 1964; Follenius et Porte, 1962; Follenius, 1963; Murakami, 1961–1964; Gansler, 1965; Holmes, 1965) the type of granules and their function still remains as an open question (see Bargmann, 1963; Knowles, 1965).This work was aided by a grant from Nato and the Deutsche Forschungsgemeinschaft.This paper was written as a tribute in honor of the 60th birthday of Prof. Dr. Berta Scharrer.     

Ultrastructural aspects of the inhibition of neurosecretion by puromycin

Summary The supraoptic nuclei and the infundibular process of the neurohypophysis were studied under the electron microscope in rats fed on dried food for 1 to 3 days and in similarly dehydrated animals but injected subarachnoidally with puromycin 4 to 24 hours prior to fixation. With 4 to 8 hours of puromycin the intracisternal filamentous material found in the control is greatly diminished. After 24 hours this inhibitory effect disappears in the perikaryon but the neurotubular material of the neuronal processes within the supraoptic nucleus and the neurosecretion in the infundibular process are greatly reduced. These results are discussed taking into consideration the inhibition of protein synthesis caused by puromycin and the neurosecretory cycle which characterizes the supraoptic neurons.Supported by grants from the Consejo Nacional de Investigaciones Cientificas y Técnicas and by the Air Force Office of Scientific Research (963–65).     

Differences between median eminence and neural lobe in amphibians

Summary The neurohypophysis of the toad Bufo arenarum Hensel can be subdivided into two well defined zones: the median eminence and the neural lobe. In its turn, the median eminence consists of two zones: a neural subependymal one, containing the axons of the hypothalamic-neurohypophysial tract; and a glandular one, made up of the capillaries of the primary plexus of the portal hypophysial system and of neurosecretory axons.Different staining techniques and certain experimental procedures (inanition, dehydration and adenohypophysectomy) showed that there are differences between the neurosecretory material of the neural lobe, which is a place of hormone liberation into the systematic circulation, and the neurosecretory material of the median eminence, which is the site of release of adenohypophysis-stimulating substances into the portal vessels.This work was introduced at the III Sesiones Científicas de Biología, Rosario, Argentina, March, 1965. The study was partially supported by the Consejo Nacional de Investigaciones Científicas y Técnicas (Argentina) and The Rockefeller Foundation (School grant RF-58028).Fellow of the Consejo Nacional de Investigaciones Científicas y Técnicas, Argentina. The author wishes to express his indebtedness to Dr. M. H. Burgos and Dr. F. Sacerdote for their help and criticism, to Miss B. Rodriguez. Miss M. Masot and Mr. L. Castro for their technical assistance.     

Extravascular circulation in the pituitary of Mugil cephalus (Teleostei)

Summary Extravascular circulation in the pituitary of Mugil cephalus was investigated by injecting live fish with horseradish peroxidase and studying the distribution of the enzyme in the gland. The principal components of the extravascular circulatory system are the pericapillary spaces, and, arising from them, the interlobular and circumhypophyseal spaces. Extensions of these spaces penetrate the glandular parenchyma of the pars distalis, where they merge with pericellular spaces. In the neurohypophysis, pericapillary spaces are connected to the periaxonal spaces.Capillaries penetrating from the proximal neurohypophysis into the pars distalis are accompanied by neurosecretory axons. These axons form a mass of tissue which is limited near the capillaries by the pericapillary spaces and near the adenohypophysis by the interlobular spaces. Toward the interior of the adenohypophysis the amount of nervous tissue accompanying the capillaries progressively diminishes, thus reducing the distance between pericapillary and interlobular spaces. Within the pars distalis, the neurosecretory axons accompanying the capillaries are sparse, and the secretory and stellate cells are mostly located directly adjacent to the pericapillary spaces. In the neuro-intermediate lobe, interlobular spaces outline the neuro-adenohypophyseal boundary.The relationship between extravascular spaces and hormone-secreting cells varies in the different regions of the adenohypophysis depending upon the type of neurosecretory innervation in the respective region. In the regions of prolactin and gonadotropin cells, where neurosecretory axons are in direct contact with the secretory cells, the hormone-secreting and stellate cells are adjacent to the pericapillary spaces. In the regions of ACTH and STH cells, secretory and stellate cells are found adjacent to the interlobular spaces, which are interposed between the cells and the neurosecretory axons.Abbreviations AH adenohypophysis - CH circumhypophyseal - DNH distal neurohypophysis - HRP horseradish peroxidase - NH neurohypophysis - NS neurosecretory - PD pars distalis - PI pars intermedia - PPD proximal pars distalis - RNH rostral neurohypophysis - RPD rostral pars distalis This research was supported by a grant from the National Council for Research and Development, Israel, and the GKSS Geesthacht-Tesperhude, Federal Republic of Germany     

Über die Wirkung von Nikotinsäure auf das neurosekretorische System

Zusammenfassung Unsere Untersuchungen sollten Aufschluß über die Wirkung von Nikotinsäure auf das neurosekretorische System geben. Angesichts der engen Zusammenhänge von Neurosekret und Hinterlappenhormonen erschien es reizvoll, die Wirkung von Nikotinsäure sowohl unter Bedingungen des akuten Streß als auch unter länger dauernder Belastung zu studieren. Dabei sollte insbesondere geklärt werden, ob sich das neurosekretorische System an den chronischen pharmakologischen Streß adaptiert.Etwa 6 Monate alte Albinoratten (28) wurden mit Nikotinsäure belastet. Injektion von Nikotinsäure führt zu einer Abnahme von Neurosekret in erster Linie in der Neurohypophyse, dagegen weniger oder gar nicht im Bereich der neurosekretorischen Kerngebiete. Nach 10 Tagen zeigt die Neurohypophyse trotz der täglich weiter durchgeführten Nikotinsäureinjektionen eine deutliche Erholung, d. h. ein Wiederauftreten von Neurosekret, so daß sich bei vielen Tieren nach etwa 3 wöchiger Nikotinsäurebelastung ein stärkerer Neurosekretbestand als bei den unbelasteten Kontrolltieren findet.Wenn die derart vorbehandelten Tiere eine außerordentlich starke Nikotinsäuredosis erhalten, zeigen sie keine Reaktion ihres neurosekretorischen Systems, d. h. ihr Neurosekretbestand bleibt unbeeinflußt. Demgegenüber lassen unbehandelte Ratten bei gleich starken Nikotinsäuredosen eine erhebliche Ausschwemmung neurosekretorischer Substanz erkennen. Möglicherweise spielt bei diesen Tieren zumindest z. T. der einmalige Streß der Injektion (Schmerzstreß) neben der Nikotinsäurewirkung eine Rolle.Offensichtlich ist die Wirkung von Nikotinsäure auf das neurosekretorische System wesentlich geringer als der Effekt von Nikotin.

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Summary As is known from animal experiments and observations in men, nicotine leads to a secretion of posterior pituitary hormones. Our investigation was designed to study the effect of nicotinic acid under acute and chronic experimental conditions. It was of particular interest to learn wheter the neurosecretory system will adapt to the chronical pharmacologic stress.28 albino rats, aged 6 months, were injected with nicotinic acid. The effect was a marked decrease of neurosecretion especially in the neurohypophysis; the decrease was less marked in the nuclear regions. After 10 days, despite daily injections, a definite recovery of the neurohypophysis was observed; i.e. a new-formation of neurosecretion. After 3 weeks of treatment more neurosecretion was present in many of the test animals than in untreated control animals.If pre-treated animals received an unusually high dosis of nicotinic acid, it had no visible effect on the neurosecretory system, in contrast to control animals which lost most of the neurosecretory substance. This phenomenon may find its explanation in the pain which is associated with the injection. It seems, that nicotinic acid has much less effect on the neurosecretory system than nicotine.

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

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Die orientierenden Versuche zu dieser Arbeit konnte der eine von uns (Rodeck) während seiner Gastassistentenzeit 1959 im Institut de Médecine et de Chirurgie expérimentales de l'Université de Montréal, Kanada (Direktor Prof. Dr. H. Selye) durchführen, wofür auch an dieser Stelle gedankt sei.     

Further studies on the neurohypophysis of the hedgehog (Erinaceus europaeus)

Summary Further studies of the neurohypophysis of the hedgehog have confirmed the presence of two distinct types of neurosecretory fibre in the infundibular process. A third type of fibre, possibly containing catecholamines, is found in the upper infundibular stem.Lesions of the paraventricular nuclei result in vacuolation of type I nerve fibres, which contain crystal-like and aggregate bodies. Type II fibres, containing membranous inclusions, with or without osmiophilic material, apparently do not degenerate. The evidence suggests that type I fibres arise in both the paraventricular and supraoptic nuclei.Dedicated to Professor Berta Scharrer on the occasion of her 60th birthday.     

An in situ study of the preoptico-neurohypophysial complex of the freshwater teleost Ciarias batrachus (L.)

Summary The complicated architectural pattern of the preoptico-neurohypophysial neurosecretory system of Clarias batrachus is described using bulk staining procedure. The nucleus preopticus is U-shaped; its limbs constitute the PMC and PPC. The difference in staining intensities noticed among the PMC and PPC might suggest a possible functional difference within the system. Axons of the PMC diagonally pass through the PPC and emerge along with those of the latter to form the right and the left main tracts. The folds and recurrent curves of the neurosecretory axonal tracts, the formation of several pairs of lateral tracts and their union to form median tracts might be devices to increase the storing and releasing capacity for the neurosecretory material. The presence of prominent Herring bodies, and diffuse areas in the neurosecretory tract suggest possible sites of release of neurohormones along the highly vascular hypothalamic region. The common neurosecretory tract is divided into several smaller branches at the level of the pars distalis prior to entering the pars intermedia. Branches do penetrate into the pars distalis, but those entering the rostral component of the pituitary are relatively scarce.Regeneration of the anterior stump of the severed hypophysial stalk to form a neurohypophysis-like organ is also demonstrated in toto with the aid of the bulk staining procedure. A demonstrable increase of stainable neurosecretory material was noticed all along the hypothalamo-neurohypophysial complex of some specimens subjected to complete darkness. Total staining methods could be advantageously used to map the course of recurrent tracts and extra-hypophysial axonal endings. Since the neurosecretory system seems to exhibit a varied structural pattern in different fishes, extension of this study to a larger number of species may throw additional light on the function and the evolution of this important system.I am indebted to Dr. K. N. Udupa, Principal, College of Medical Sciences and Director, Surgical Research Laboratory and Dr. L. M. Singh, Officer in-charge of the Laboratory for providing all facilities and encouragements.     

Über markhaltige Nervenfasern und markhaltige Herringkörper in der Neurohypophyse des Elefanten

Zusammenfassung Der Tractus supraoptico-hypophyseus des Elefanten besteht aus markhaltigen Nervenfasern und zieht durch das Zwischenstück bis in die distale Neurohypophyse. In seinem Verlauf finden sich große Herringkörper, die teilweise Markscheiden besitzen. Der stark reduzierte Zwischenlappen liegt in Form von Zellnestern in dem Bindegewebe, das den distalen Teil umhüllt. Das neurosekretorische Material ist in üblicher Weise verteilt. Die Ergebnisse werden diskutiert.

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On myelinated nerve fibres and myelinated herring bodies in the neurohypophysis of the elephant

Summary The tractus supraoptico-hypophyseus of the elephant consists of myelinated fibres. It passes through the intermediate part towards the distal part. In its course there are Herring bodies. Some of them are provided with myelinated sheaths. The intermediate lobe is strongly reduced. It is situated in the connective tissue surrounding the distal part of the neurohypophysis and consists only of nests of epithelial cells. The localisation of the neurosecretory material corresponds to the usual distribution. The results are discussed.

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Die Untersuchung wurde mit dankenswerter Unterstützung durch die Deutsche Forschungsgemeinschaft durchgeführt.

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Herrn Prof. Dr. Dr. E. Horstmann zum 60. Geburtstag gewidmet.     

Ultrastructure of the hypothalamic neurosecretory system of the dog

Summary The hypothalamic neurosecretory system of normal dogs was studied by light and electron microscopy after perfusion-fixation. In the supraoptic nucleus most neurons are loaded with elementary neurosecretory granules having a content of low electron density. Neurons with less neurosecretory material and signs of enhanced synthetic activity, as recognized by the changes in the endoplasmic reticulum, were also observed.The vesiculated neurons ofJewell were studied under the electron microscope and various stages of development were described. It was postulated that they originate by a localized process of cytoplasmic cytolysis which ends in the formation of a large aqueous intracellular cavity limited by a plasma membrane. The possible significance of these vesiculated neurones is discussed. Some few myelinated neurosecretory axons are found in the supraoptic nucleus.The neurons of the paraventricular nucleus are smaller and contain less neurosecretory material. This is abundant and very pale in the axons. The median eminence consists of an inner zone, mainly occupied by the neurosecretory axons of the hypothalamic-neurohypophysial tracts, and an outer zone in which some neurosecretory axons end on the capillary of the portal system. This outer zone contains numerous axons with the axoplasm rich in neurofilaments and some containing granulated and non-granulated synaptic vesicles. Some neurons with granulated vesicles were observed in this region. The adrenergic nature of these neurons and axons is postulated.The infundibular process of the neurohypophysis shows small axons with discrete amounts of elementary granules and vesicles of synaptic type at the endings. Some enlarged axons having, in addition, large polymorphic bodies are observed and related to the Herring bodies.The size and morphology of the granules are analyzed along the entire hypothalamic-neurohypophysial system. The changes in diameter and electron density are related to the maturation of the granules and the possible significance of such evolution.Supported by grants from the Consejo Nacional de Investigaciones Cientificas y Técnicas and by the Air Force Office of Scientific Research (AF-AFOSR 963-66).     

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.     

Ultrastructure of the peptidergic and monoaminergic neurons in the hypothalamic neurosecretory system of Anuran Batracians

Summary In the toad Bufo arenarum Hensel the following regions of the hypothalamic — neurohypophyseal system were studied under the electronmicroscope: preoptic and paraventricular nuclei, median eminence and infundibular process of the neurohypophysis.Neuronal perikarya of the preoptic nucleus are loaded with typical neurosecretory granules of peptidergic nature having a mean diameter of 1660 Å. While most neurons of the winter toad are in a storage stage a few show signs of a more active synthetic activity. A distinctive feature of preoptic neurons is the presence of large lipid droplets. The paraventricular nucleus contains small neurons containing granulated vesicles with a mean diameter of 800-1000 Å. In the region extending between these two nuclei and the median eminence axons containing either neurosecretory elementary granules or granulated vesicles are observed.The inner zone of the median eminence is occupied by axons of the preoptic neurohypophyseal tract; two types of axons, according to the size and density of the neurosecretory granules, may be recognized. The outer zone of the median eminence contains mainly axons and nerve terminals containing granulated vesicles of probable monoaminergic nature and only a few with granules of peptidergic type.The neurohypophysis contains two kinds of axons: one with more dense granules of 1800 Å and the other with granules of lesser electron density and 2100 Å. At the ending proper small clear vesicles of synaptic type are found.A progressive increase in volume of the peptidergic granules along the axon is demonstrated. This is of the order of 218% from the preoptic perikarya down to the infundibular process. The physiological significance of the two neurosecretory systems — i.e. the monoaminergic and the peptidergic — and the probable nature of the two types of peptidergic axons is discussed.Supported by grants from the Consejo Nacional de Investigaciones Científicas y Técnicas and by the Air Force Office of Scientific Research (AF-AFOSR 963-67).The authors want to express their gratitude to Mrs. Defilippi-Novoa and Mr. Alberto Sáenz for their skillful assistance.     

Ultrastructure of neurosecretory cells in the frontal ganglion of the tobacco hornworm, Manduca sexta(L)

Ultrastructural evidence is presented to indicate the synthesis, storage, and packaging of neurosecretory material in the frontal ganglion of Mandaca sera. Two morphologically distinct stages in the development of NSG were observed in the NSC. The immature granule contains granular electron dense material and arises from dilations of the rough endoplasmic reticulum. In diapause pupae the immature granules accumulate, whereas in developing larvae and pupae, they fuse with the proximal face of the Golgi apparatus. The mature granule contains opaque electron dense material and is seen in close association with the distal cisternae of the Golgi apparatus in developing pupae and larvae. The mature granules presumably contain the material from the immature granules which has been chemically altered and condensed by the Golgi apparatus and probably represent the mature NSG.The second process in neurosecretory cells of developing larvae is cyclic and the various stages are described. A comparison of neurosecretion in photoperiodically induced diapause and developing (non-diapause) larvae and pupae is presented.     

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.     

Changes in the pituitary of the migrating European eel during its journey from rivers to the sea

Summary The present studies demonstrate that, as migrating European silver eels enter the sea, important changes occur in the pars distalis of the pituitary. A decrease of Type A neurosecretory material in all nerve tracts penetrating the pars distalis was observed, as was an increased activity of Type B neurosecretion in the tracts of the proximal pars distalis.In the proximal pars distalis, gonadotropic cells show striking changes, and in the rostral pars distalis thyrotropic and prolactin cells. It is discussed whether these changes are related to migration to breeding grounds or to changes in the environment.Dedicated to Dr. Berta Scharrer on her 60th birthday.