Presence of microglia-like cells in the neurohypophysis of normal and dehydrated rats

By use of electron microscopy, in addition to conventional pituicytes small irregular cells were found in the hypophysial neural lobe of both normal and dehydrated adult rats. These cells were characterized by their irregular profiles, showing many multidirectional cytoplasmic processes, and by their dense nuclei and cytoplasm. They were located in both perivascular and interstitial positions. The cells in the first site were more numerous and showed frequent contacts with the parenchymal or endothelial basal laminae. Both showed basically the same submicroscopic features, displaying a well-developed Golgi apparatus and several dense bodies, presumably primary and secondary lysosomes. Cells were related to axons and nerve endings lying in the intercellular and in the perivascular spaces. Their ultrastructural features closely resembled those of microglial cells. The participation of these cells in the activities of neural lobe is discussed.     

A comparative study of the ultrastructure of the median eminence,infundibular stem and neural lobe of the hypophysis of the rat

Summary The ultrastructure of the infundibulum has been studied and compared with that of neural lobe in normal rats. The neurohemal areas of the median eminence are similar to those of the stem but differ from those of neural lobe. The infundibular axons which end around the primary capillaries of the portal system are of a significantly finer caliber. Secondly they contain a different vesicle population. They lack the large (1500 Å–2100 Å) neurosecretory vesicles so abundant in neural lobe axon terminals but contain a smaller (less than 1000 Å) type of vesicle with an osmiophilic center. These dense-core vesicles are consistently present in the many infundibular levels examined, although they are not as numerous as the neurosecretory ones of neural lobe. They are outnumbered by vesicles of the synaptic type, whereas in neural lobe the neurosecretory ones predominate. Another difference involves the electron lucent, neurosecretory vesicle. These are abundant in neural lobe axons, but comparable aggregations of them have not been seen in infundibular axon endings of the neurohemal areas. In contrast, the internal zone of median eminence and the interior of the stem display, in addition to the fine axons, many large fibers which by size and content match the ones of neural lobe. However, careful study indicates that these are axis cylinders and not axon endings.These observations lead to the conclusion that the small calibered axons which terminate around the infundibular capillaries of the portal system constitute a separate group, and are clearly distinguishable at the ultrastructural level from the large supraoptico-neurohypophyseal axons. The latter normally traverse the infundibulum but terminate in neural lobe.This investigation was supported by U.S.P.H.S. Research Grant 5 RO 1 NB 02321-05, National Institute of Neurological Diseases and Blindness. — The author is particularly indebted to Mrs. Nora Tong for her excellent technical assistance throughout the course of this study.     

Fine structural characteristics of neurophysin-positive perivascular plexus that develop in the rat hypothalamus following interruption of the hypothalamo-neurohypophysial tract

Summary Transection of neurosecretory axons of the hypothalamo-neurohypophysial tract within the hypothalamus by stereotactic grafts of various tissues or knife cuts induced the development of neurophysin-positive plexus around arterioles, venules and capillaries in the vicinity of these grafts or cuts. These plexus ranged from single axons to densely woven networks and tended to increase progressively with time after experimental intervention. At the fine structural level, typical neurosecretory axon profiles were either abutting the perivascular connective tissue space or located within it. They were usually-accompanied by astrocyte processes or microglial cells. Many of these axons had extensive contact with the surrounding basal lamina at which point clusters of microvesicles reminiscent of axon terminals in the neural lobe were present.     

The distribution of carboxylic esterases in the area postrema of the guinea pig

Summary Detailed studies were made on the distribution of carboxylic esterases in the area postrema (AP) of the guinea pig. In this species the nerve cells of the AP show intense acetylcholinesterase activity which greatly enhances a morphological study of these elements. The two main types of nerve cells arebipolar cells andmultipolar cells. The bipolar cells often send their peripheral processes to the wall of a capillary, while the other processes go towards the nervous tissues outside of the organ. A similar behavior of the processes could be observed in the case of the multipolar cells. A special multipolar cell having bulb-like endings in the neuropilema of the organ has been discussed. On the basis of these findings it is conjectured that these neural elements, as well as the AChE positive nerve fibers located along the walls of the capillaries, function as parts of a chemoreceptor system, the existence of which has been postulated by former authors. The non-specific esterase activity of the organ is rather diffuse. B esterases have been described in the glial cells and in several nerve cells and in the pericytes and endothelial cells of the perivascular space. The localization of A and C esterases appeared diffuse, but only the AP showed intense C esterase activity in the caudal medullary area.     

The projections of neurosecretory cells in the brain of the North-American medicinal leech,Macrobdella decora,using intracellular injection of horseradish peroxidase

The projections of four anatomically distinct groups of putative neurosecretory cells found within the supra-oesophageal ganglion of the leech Macrobdella decora were studied by intracellular injection of horseradish peroxidase. All four groups have their own characteristic branching pattern while sharing the common feature of possessing primary branches that project into the dorsal commissure. Numerous secondary processes extend from these primary branches to terminate within the neural lamella, as well as within the neuropile. Electron microscopy of the regions into which these secondary processes project reveals numerous neurosecretory terminals. The data suggests that the midregion of the dorsal commissure constitues a neurohemal complex. These observations strengthen the argument that the four groups of identified cells are indeed neurosecretory.     

Fine structure of the median eminence and the pars nervosa of the bullfrog,Rana catesbeiana

Summary The hypothalamic neurosecretory system of the bullfrog, Rana catesbeiana, was studied with light- and electron microscopy. The median eminence is roughly divided into two portions. The upper portion mostly consists of ependymal cells, glial cells and preoptico-hypophysial nerve tract, whereas in the lower portion, neurosecretory axons, glial cells, processes of glial and ependymal cells, and fine blood vessels of the hypothalamic portal vein are located. A part of the neurosecretory axons of the preoptico-hypophysial tract proceeds to the lower portion of the median eminence. These axons are arranged perpendicularly to the capillaries of the hypothalamic portal vein. The glial cells are densely located in the area of the median eminence where neurosecretory material is abundant. The neurosecretory material in the neurosecretory cells, their axons, the median eminence and the pars nervosa of the bullfrog shows a positive reaction to PAS treatment.The neurohemal area of the median eminence is occupied by many neurosecretory and non-neurosecretory axons, containing neurosecretory granules and/or synaptic vesicles. The axonal portions with the synaptic vesicles which are considered to be the nerve endings abut on the capillaries of the portal system. The size of synaptic vesicles in the axon terminals containing few neurosecretory granules is larger than those in the endings with many neurosecretory granules. Infrequently glial and ependymal processes are interposed between the nerve endings and the capillary wall.In the hilar region of the infundibulum, synapses are frequently observed between the thin fibers with or without neurosecretory granules and dendrites of non-neurosecretory neurons. The probable functions of these synapses are briefly discussed on the basis of our findings. Both in the hilar region of the infundibulum and in the pars nervosa, electron-dense neurosecretory granules of two different sizes were observed. The median eminence contains only one type of granules.The fine structure of the pars nervosa shows similar structures to those of the median eminence. Both in the median eminence and the pars nervosa, the fenestrated endothelium of the capillaries was frequently observed. The thick perivascular connective tissue space containing fibroblasts and collagen fibrils was observed both in the median eminence and the pars nervosa. Vesicles in the cytoplasm of the endothelial cells which appear to take a part in the transendothelial transport were observed.This investigation was supported in part by United States Public Health Service Research Grant, No. A-3678, to Hideshi Kobayashi from the National Institute of Arthritis and Metabolic Diseases and partly by a grant for Fundamental Scientific Research from the Ministry of Education of Japan. The authors wish to express their thanks to Prof. K. Takewaki for his kind encouragement.     

Morphofunctional types of synapses in the neurosecretory cells of the carp preoptic nucleus]

The ultrastructure of synaptic endings of the neurosecretory cells of the nucleus preopticus was examined in adult Cyprinus carpio L. Two of synpatic endings occur: type I--small agranular vesicles and large granular vesicles, type II--only agranular vesicles. The functioning of the nucleus preopticus neurosecretory cells in Cyprinus carpio L is presumably controlled by the synpatic endings of the adrenergic (synaptic endings of type I) as well as of the cholinergic (synaptic endings of type II) origin. By visual and morphometric methods different kinds of synpatic endings are distinguished among both the types of synapses according to their particular functional states. A quantitative analysis of the correlation of these kinds of synpatic endings allows a suggestion in respect to the state of the synaptic apparatus on the perikaria of neurosecretory cells.     

Intralamellar neurohemal complexes in the cerebral commissure of the leech Macrobdella decora (Say, 1824): An electron microscope study

Electron microscopy of the cerebral ganglionic commissure of the leech Macrobdella decora (Say, 1824) revealed numerous neurosecretory axons terminating in the neural lamella of both the inner and outer capsules, and in the neural lamella deep within the neuropile. The proximal protions of the terminals, with an investment of glial tissue, contain either numerous large homogeneously electron dense granules, or numerous large granules of varying electron density. The distal portions, often devoid of glia, display numerous infoldings, omega profiles, and electron dense focal sites, and contain numerous neurosecretory granules, small lucent vesicles, and, occasionally, acanthosomes. Statistical analysis of the size distribution and morphology of the neurosecretory granules showed that in many individual terminals the granules are not significantly different from those seen within four groups of neurosecretory cells found in the cerebral ganglion. These terminals, because of their diffuse nature, probably represent a neurohemal complex of a primitive nature. The term “intralamellar complexes” is proposed to describe the form and location of these neurosecretory terminals.     

Isolated neurosecretory nerve endings as a tool for studying the mechanism of stimulus-secretion coupling

In the present paper we discuss the properties of a recently developed preparation of isolated neurosecretory nerve endings obtained from the rate neurohypophysis. These nerve terminals release two neurohormones, oxytocin and vasopressin, which are easily assayed by radioimmunoassay. Depolarization-induced secretion is dependent on the same parameters as those regulating release from the whole neural lobe. The isolated nerve endings can be permeabilized by means of digitonin; a treatment which gives direct access to the cytoplasm allowing the study of the minimal requirements for inducing neuropeptide release. Furthermore, some nerve endings are large enough to allow the use of the patch-clamp technique. In the present paper we present evidences which show that the isolated neurohypophysial nerve terminals represent a protent tool for studying the mechanism of stimulus-secretion.     

Organization and development of the perivascular space system in the neurohypophysis of the laboratory mouse

Summary The organization of the system of perivascular space around the capillaries in the neurohypophysis was studied in the adult and developing laboratory mouse by the use of histological silver impregnation and electron microscopical techniques.In the median eminence short and long extensions, arising mainly from the shallow space around capillary loops of the primary plexus of the portal system, formed radiations into the adjacent neural tissue of the external zone. The tissue of the neural lobe was separable into non-vascular regions dominated by undilated portions of neurosecretory nerve fibres and pituicytes, and neurovascular regions with perivascular space extensions forming an extensive system of connections between neighbouring capillaries.In the median eminence, the system of extensions of the perivascular space was estimated to increase the neurovascular contact surface area by at least 50%, implying an increased efficiency of the organ without a notable increase of its volume. The possibility that the ramifications of the perivascular space imply an enhanced uptake rate into the bloodstream and a subsequent increased concentration of the neurohormones in the portal blood, was discussed.During development of the median eminence, differentiation of perivascular space extensions of the adult type started in the juvenile of about three weeks of age, when shallow capillary loops had been formed. In the neural lobe, perivascular space ramifications were already present when the internal capillaries were formed and were fairly frequent in ten-day young. At the age of three to four weeks the organization of the system was similar to that of the adult animal.     

Immuno- and lectin-electron-microscopic investigation of the neural lobe of the hypophysis in the snake Natrix maura

Summary By the use of lectin histochemistry, and immunocytochemistry with antisera against bovine neurophysins I and II (NPs), arginine vasotocin (AVT) and mesotocin (MST), the neural lobe of the hypophysis in the snake Natrix maura was investigated at the light- and electron-microscopic levels. While paraldehyde-fuchsin stained virtually all neurosecretory endings, the periodic acid-Schiff reaction revealed only a portion of these elements. Furthermore, concanavalin-A and wheat-germ agglutinin lectins reacted with some but not all terminals. While in electron micrographs lectin-positive neurosecretory endings displayed medium-sized, pale neurosecretory granules, those from lectinnegative endings were larger and denser. The antiserum against the two NPs revealed the entire population of neurosecretory endings. The antiserum to AVT stained more numerous fiber elements than the antiserum to MST. Ultrastructurally, correlations concerning size and electron density can be found, on the one hand, between AVT-immunoreactive and lectin-positive neurosecretory granules and, on the other hand, between MST-immunoreactive and lectinnegative granules. The use of immuno-electron microscopy for the characterization of the different endings in the neural lobe and the presence of carbohydrates in some of them is discussed.This work was supported by the Directión General de Universidades e Investigación de la Junta de Andalucía (Grant BOJA 27/9/88) and the Direction General de Investigación Científica y Técnica (DGICYT Grant PB87 0710) Espaa     

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.     

State of the hypothalamo-hypophyseal neurosecretory system of rabbits in anaphylactic shock]

With the aid of morphometric and histochemical methods a study was made of the hypothalamo-hypophyseal neurosecretory system of rabbits in anaphylactic shock. The following occurred in rabbits which survived the shock: an enlargement of the perikarions and reduction in the size of the nuclei and nucleoli of the neurosecretory cells; the content of the neurosecretory substance was increased in the whole neurosecretory system. In rabbits which perished from shock the nuclei and the nucleoli of the neurosecretory cells diminished to a lesser extent, perikarion measurements remained unchanged and the content of the neurosecretory substance in the posterior lobe of the hypophysis fell. Thus, in the animals which survived the shock the processes of synthesis of the neurohormones by the neurosecretory cells were sharply activated, but the secretion of the neurohormones from the posterior lobe of the hypophysis was inhibited; in animals which perished from shock the activation of the hormone formation in the neurosecretory cells was less pronounced, but the processes of the secretion of the neurohormones from the posterior lobe were apparently intensified.     

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.     

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.     

Pattern of crypt cell proliferation in the pre- and post-closure ileum of the neonatal rat: Effects of sympathectomy

Summary The ultrastructural localization of adenylate cyclase was accomplished cytochemically in the neurointermediate lobe of Sprague-Dawley rats. The main concentration of the reaction product was found on the plasmalemma of neurosecretory nerve fibers, their terminals and plasma membranes of pituicytes. Positive reaction for adenylate cyclase was found less regularly in endothelial cells, pericapillary spaces and processes of the basal lamina. The septum between the pars nervosa and the pars intermedia showed heavy deposits of the reaction product, especially around the neurosecretory nerve fibers but also around other types of nerve fibers. Reaction for adenylate cyclase was not seen in the cells of the pars intermedia. When the substrate (ATP) was omitted, no reaction product was found. These findings support the suggestion of an involvement of cyclic AMP in the release mechanism of neurohypophysial hormones from the neurosecretory nerve terminals, and possibly also their transfer into blood vessels and perivascular channels.Supported by M.R.C. (Canada)Carreer Investigator of the Medical Research Council of Canada     

Nematosomes or nucleolus-like bodies in hypothalamic neurons,the subfornical organ and adenohypophysial cells of the rat

Summary Fibrillar intracytoplasmic bodies, generally referred to as nematosomes or nucleolar like bodies (NLBs), are not only observed in various types of neurons in the hypothalamus and subfornical organ but also in the glandular cells of the pars tuberalis and the pars intermedia hypophyses. According to their cytochemical properties the NLBs are probably of ribonucleoprotein nature. Within the neurons NLBs occur within perikarya and processes. Their presence within the neurosecretory nerve fibers of the neural lobe proves their ability to migrate within the axon. Morphologic modifications of NLBs are observed in stimulated neurons and after colchicine treatment. Colchicine causes a characteristic dense texture of NLBs and a peripheral agglomeration of mitochondria very similar to the rosette arrangement observed in oocytes. Our findings suggest a structural and functional similarity of NLBs in neurons and oocytes, in which their nucleolar origin appears obvious and where they seem to represent preribosomal material. It is very likely that the axonal migration of the NLBs reflects transport of ribosomal RNA for delayed utilization (as in oocytes).This paper is dedicated to Prof. F. Stutinsky for his 65th birthday.     

Ultrastructural features of rat pituicytes in organotypic culture

Summary Neural lobes of adult rats have been explanted and organ-cultured for 5–10 days. While perivascular cells and neurosecretory fibers undergo a progressive degeneration, scattered pituicyte-like cells are observed mostly associated with each other in number of two or three cells for group. Cultured pituicytes are quite similar to in vivo pituicytes except for some particular features as the shape of the nucleus and the number of dense bodies. Furthermore they share with the in vivo pituicytes the phagocytic capacity which appears even increased as far as neurosecretory fibers are concerned. Finally, degenerating pituicytes and free lipid droplets are observed in the intercellular spaces: the significance of these facts is discussed and tentatively interpreted. The organotypic culture of the neural lobe seems to represent an experimental model useful to obtain a relatively pure population of pituicytes.With the technical assistance of Vincenzo Panetta.     

The implantation of puromycin into the neurosecretory nuclei of the rat

Summary Following the bilateral implantation of puromycin into the paraventricular nuclei of rats, the neurosecretory cells became atrophic and the amount of aldehyde-fuchsin (AF) positive material in the neural lobe decreased. In these rats, urine excretion and water intake increased remarkably. The supraoptic nuclei of the rats were not affected by this treatment. After the unilateral implantation of puromycin in the paraventricular nucleus, the neurosecretory cells of the implanted side became atrophic, while those of the unimplanted side hypertrophied. The neural lobe contained similar amounts of AF-positive material to those of the control rats with unilateral cholesterol implants. In the rats implanted bilaterally with puromycin immediately above the supraoptic nucleus, the neurosecretory cells of this nucleus contained little or no AF-positive material, and urine excretion and water intake increased greatly. The cells of the paraventricular nucleus remained unchanged in these rats.     

Corticotrophic cells in the rostral zone of the pars intermedia and in the adjacent neurohypophysis of the rat and mouse

Summary In the mouse, the rostral zone of the pars intermedia is almost exclusively composed of typical corticotrophic cells. They are located around and even within the neural stalk, at the level of transition between stalk and neural lobe. In the rat, the corticotrophic cells of the rostral zone are found in scattered islets among the MSH producing cells, and also in the neural lobe. In both the rat and mouse, these cells are in direct contact with various types of nerve terminals. Synaptoid contacts with aminergic and neurosecretory nerve fibers are observed. Furthermore they are also closely related to the hypophysial portal vessels. Following adrenalectomy, the cells located in the neurohypophysis always react more intensely than tose in the rostral zone. The functional significance of these corticotrophic cells which are subject to both humoral and neural regulation remains as yet hypothetical. Their participation in neurogenic stress response seems probable.