Zur Feinstruktur des Organon vasculosum hypothalami des Frosches (Rana temporaria)

Zusammenfassung Das Organon vasculosum hypothalami von Rana temporaria wurde licht-, fluoreszenz- und elektronenmikroskopisch untersucht. Es besteht aus einem kleinen Kerngebiet catecholaminhaltiger Nervenzellen, deren apikale Zellausläufer das Ependym durchbrechen und im Ventrikel ein Geflecht bilden.

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The fine structure of the organon vasculosum hypothalami of the frog (Rana temporaria)

Summary The organon vasculosum hypothalami of Rana temporaria was investigated with the light-, fluorescence-, and electron microscope. It consists of a small nucleus of catecholamine containing nerve cells, the apical processes of which perforate the ependymal lining and form an intraventricular plexus.

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Mit dankenswerter Unterstützung durch die Deutsche Forschungsgemeinschaft.     

Monoaminergic Systems in the Hypothalamus of the Acanthopterygian Chelon labrosus (Risso, 1826), with Special Reference to the Organon Vasculosum Hypothalami

Distribution of biogenic amines in the diencephalon of the advanced teleost Chelon labrosus was investigated by formaldehyde-induced fluorescence. We have found three closely interrelated bright yellow-green fluorescent monoaminergic cell groups having numerous cerebrospinal fluid-contacting cells with dendritic processes that protrude into the lumen of the third ventricle. The most rostral of them, the organon vasculosum hypothalami, located dorsally at the mid and caudal hypothalamus level, showed under electron microscopy some monoaminergic cells and others with an abundant smooth endoplasmic reticulum. The cerebrospinal fluid-contacting processes of both cell types, in association with numerous fibres, terminal buttons and some capillaries, constitute a thick and complex intraventricular mat. The other two fluorescent regions, nucleus recessi lateralis and nucleus recessi posterioris, border the lateral and posterior recesses of the hypothalamus. The ultrastructural characteristics of the organon vasculosum hypothalami and its intraventricular mat suggest a function in the regulation of chemical changes in the cerebrospinal fluid. These monoaminergic regions probably represent three cell masses originated from a single region in primitive fish.     

Zur Ultrastruktur des Organon vasculosum hypothalami der Smaragdeidechse (Lacerta viridis)

Zusammenfassung Das Organon vasculosum hypothalami von Lacerta viridis wurde licht- und elektronenmikroskopisch untersucht. Unter dem Ependym wurde ein Kerngebiet kleiner, bipolarer Nervenzellen gefunden, das stark vascularisiert ist. Zwischen den elektronenmikroskopisch nachweisbaren Strukturen und dem histochemisch ermittelten hohen Gehalt an Catecholaminen in diesen Zellen ließ sich keine Zuordnung finden. Die keulenförmigen Neuroplasmaausläufer ragen in den Ventrikel und bilden mit anderen Zellfortsätzen und Zilien ein dichtes Geflecht. Eine Sekretion biogener Amine über die Neuroplasmakolben in den Liquor cerebrospinalis wird vermutet. Eine zweite, oberflächlich gelegene Zellart und der benachbarte Nucleus ventromedialis tuberis entsenden ebenfalls Zellausläufer in den Ventrikel, für die Rezeptorfunktionen angenommen werden.

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Summary The organon vasculosum hypothalami of Lacerta viridis was investigated by means of light- and electron microscopy. Beneath the ependyma a strongly vascularized nucleus of small bipolar nerve cells was found. No relation could be found between the ultrastructure of the cells and their content of histochemically traceable catecholamines. The clublike processes of neuroplasm penetrate the ventricle and form a dense plexus with cilia and other cell processes. There is a possibility that biogenic amines are secreted through the nerve cell processes into the cerebrospinal fluid. A second type of cell, forming a superficial layer, and the adjacent nucleus ventromedialis tuberis also send processes into the ventricle. It is supposed that these processes have a receptor function.

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Mit dankenswerter Unterstützung durch die Deutsche Forschungsgemeinschaft.     

Biogene Amine im Gehirn vom Frosch (Rana esculenta)

Zusammenfassung Mit Hilfe der Methode zur fluoreszenzmikroskopischen Lokalisation von Catechol- und Tryptaminen wurde die Verteilung dieser Stoffe im ZNS von Rana esculenta untersucht. Catecholamin- und serotoninhaltige Neurone liegen im Nucleus reticularis mesencephali. Außerdem finden sich catecholaminhaltige Nervenzellen im Organon vasculosum hypothalami und in der Area praeoptica. Diese aminproduzierenden Zellen entsenden Zellfortsätze durch die Ependymschicht in den Ventrikel. Über diese Ausläufer erfolgt möglicherweise eine Sekretion biogener Amine in den Liquor cerebrospinalis. Catecholamin- und serotoninhaltige Axone erreichen voneinander verschiedene Kerngebiete und Areale. Neben dem periventrikulären Zellager im Tuber cinereum und in der Area praeoptica werden vor allem der ventrolaterale Teil des lateralen Septumkerns, Striatum ventrale und Epistriatum von Endstrecken catecholaminhaltiger Axone durchdrungen. Serotoninhaltige Varicositäten finden sich dagegen vor allem in Kerngebieten, die in sensorische Bahnen eingeschaltet sind (Nucleus isthmi, corpus geniculatum laterale, Area praetectalis, Tectum opticum, Thalamus dorsalis, Neostriatum). Weitere Ausbreitungsgebiete 5-Hydroxytryptamin-haltiger Fasern sind die Habenula und der Nucleus interpeduncularis, Kerngebiete, über die Erregungen aus dem limbischen System auf vegetative Zentren der Medulla oblongata geleitet werden.

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Biogenic amines in the brain of the frog (Rana esculenta)

Summary The distribution of biogenic amines in the central nervous system of Rana esculenta was investigated by means of the fluorescence-microscopical detection of catecholand tryptamines. The nucleus reticularis mesencephali was found to contain numerous neurones rich in catechol- and tryptamines. Apart from this nucleus nerve cells in the organon vasculosum hypothalami and in the area praeoptica were found to contain catecholamines. The clublike processes of these neurones penetrate the ependymal layer and extend into the ventricle. These structures are presumably responsible for a secretion of biogenic amines into the cerebrospinal fluid. Catecholamine- and serotonin-containing axons terminate on different nuclei and areas. Besides the periventricular cellular layer of the tuber cinereum and the area praeoptica, the pars ventrolateralis of the nucleus septalis lateralis, striatum ventrale and epistriatum are pervaded by terminals of catecholamine-containing neurons. Serotonincontaining varicosities are mainly to be found in nuclei, which are intercalated in sensory pathways (nucleus isthmi, corpus geniculatum laterale, area praetectalis, tectum opticum, thalamus dorsalis, neostriatum). Further areas of distribution of 5-hydroxytryptamine-fibers are the habenula and the nucleus interpeduncularis, nuclei which coordinate impulses from the limbic system projecting them on visceral centers of the medulla oblongata.

Mit dankenswerter Unterstützung durch die Deutsche Forschungsgemeinschaft.     

The vascularization and monoaminergic structures of the organon vasculosum laminae terminalis of Rana temporaria

Summary In Rana temporaria, the organon vasculosum laminae terminalis is a highly vascularized organ which contains catecholaminergic cells and nerve fibres. Its ependymal cells are characterized by the presence of typical autofluorescent cytoplasmic granules. Intraependymal vacuolar spaces are described.     

The vascularization of the neural stalk and the pars nervosa of the hypophysis in the toad,Bufo bufo (L.) (amphibia,anura)

The angioarchitecture of the neural stalk and the encephaloposthypophysial portal system of the hypophysis of the toad, Bufo bufo (L.), was studied using three different methods. The neural stalk is mainly supplied by branches of the arteria infundibularis superficialis which form a widemeshed vascular network. Dorsally this network continues into the plexus of the pars nervosa. The vascularization of the pars nervosa is made up of the encephalo-posthypophysial portal system. This portal system consists of a hypothalamic branch (=portion), a mesencephalic and a mesencephalicbulbar branch (=portion). The hypothalamic branch was found to drain the pars ventralis of the tuber cinereum as well as more dorsal regions of the diencephalon. The mesencephalic-bulbar trunk enters the hypothalamic branch. The resulting common stem of the encephalo-posthypophysial portal vein the curves around the retroinfundibular communicating artery, crosses its ventral side and runs caudally. The secondary capillary plexus of the pars nervosa is characterized by well defined capillary plexus of the pars nervosa is characterized by well defined capillary networks which are located at the periphery of the parenchyma of the pars nervosa, thus forming a rostral, dorsal and ventro-caudal net. The central region of the parenchyma of the pars nervosa is supplied only by main branches of the encephalo-postpophysial portal vein. The venous drainage of the pars nervosa is via the vena hypophysea transversa.     

Die Ontogenese der aminhaltigen Neuronensysteme im Gehirn von Rana temporaria

Zusammenfassung Vorkommen und Verteilung biogener Amine im Gehirn von Rana temporaria-Kaulquappen wurden fluoreszenzmikroskopisch untersucht. Catecholaminhaltige Perikaryen erscheinen ab Stadium 20 im Nucleus reticularis mesencephali, im Tuber cinereum und im Bulbus olfactorius, ab Stadium 22 in den Flügelplatten der Medulla oblongata und in der Area praeoptica. Ab Entwicklungsstufe 20 zeigen sich ventrolateral in Medulla oblongata und Mittelhirn, lateral vom Organon vasculosum hypothalami, im Bereich des medialen Vorderhirnbündels und im Striatum catecholaminhaltige Faseranschwellungen, ab Stadium 22 außerdem in der Eminentia mediana und dem Hypophysenzwischenlappen, in der Commissura transversa (bis zur Stufe 26), in der Commissura anterior (bis zur Stufe 26) und in der Pars ventrolateralis nuclei lateralis septi. Im Striatum ist von dieser Entwicklungsstufe an ein zweites Areal mit grün fluoreszierenden Varikositäten nachweisbar. Ab Stadium 26 finden sich auch in der Pars dorsolateralis des lateralen Septumkerns catecholaminhaltige Faseranschwellungen.Ab Entwicklungsstufe 22 sind 5-HT-haltige, gelb fluoreszierende Perikaryen im Nucleus raphes und in seiner Umgebung zu beobachten, gelb fluoreszierende Varikositäten im Nucleus interpeduncularis und zwischen medialem und lateralem Septumkern.

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Ontogeny of the amine-containing nerve cell systems in the brain of Rana temporaria

Summary The occurrence and distribution of biogenic amines in the brain of Rana temporaria tadpoles have been investigated with the fluorescence-microscope. From the embryonic developmental stage 20 onwards catecholamine-containing cell bodies are shown to be present in the nucleus reticularis mesencephali, the tuber cinereum and the olfactory bulb, and from stage 22 onwards also within the dorsolateral areas of the medulla oblongata and within the preoptic area. Catecholamine-containing enlargements of nerve fibres occur in the ventrolateral parts of the medulla oblongata and the midbrain, in an area lateral to the hypothalamic organon vasculosum, within the region of the medial forebrain bundle and within the striatum, in all stages following stage 20. These enlargements also occur in the median eminence and the pars intermedia of the hypophysis, in the commissura transversa (up to stage 26), in the commissura anterior (also up to stage 26) and in the pars ventrolateralis nuclei lateralis septi in all stages after 22. From the same stage onwards a second area of green fluorescent varicosities can be demonstrated within the striatum. After stage 26 catecholamine-containing enlargements of nerve fibres additionally are to be found in the dorsolateral part of the lateral septal nucleus.After appearing at stage 22 5-HT-containing, yellow fluorescent perikarya are to be observed within the nucleus raphes and its neighbourhood, and yellow fluorescent varicosities in the interpeduncular nucleus and in an area between the medial and the lateral septal nucleus.

Herrn Professor Dr. med. W. Bargmann zum 65. Geburtstag gewidmet.     

Distribution of monoamines in the diencephalon and pituitary of the dogfish,Scyliorhinus canicula L.

Summary The distribution of monoamines in the diencephalon and pituitary of the dogfish, Scyliorhinus canicula, has been investigated using the histochemical fluorescence technique of Falck and Hillarp (Falck and Owman, 1965). Terminals of monoamine-containing axons were found in the neurointermediate lobe of the pituitary and the axons were traced, by means of nialamide and L-dopa treatment and lesions, to the nucleus medius hypothalamicus. A separate hypothalamic system converging on the anterior median eminence and the occurrence of aminergic cells in the nuclei lobi inferiores and nucleus medius hypothalamicus were similarly demonstrated. Normal fish show a bilateral uncrossed tegmental tract and two areas of catecholamine-containing neurones in modified ependymal organs. The organum vasculosum hypothalami includes both primary catecholamine and 5-hydroxytryptamine-containing cell types whilst the organum vasculosum praeopticum has only the former type. Both organs contain cells which send club-like processes into the third ventricle. The subcommissural organ does not contain monoamines.The role of hypothalamic catecholamine systems in the regulation of pituitary function is discussed.     

The structure and vascularization of the pars tuberalis of the hypophysis of Rana temporaria

Summary The pars tuberalis of the hypophysis of Rana temporaria presents the general structural and the cytological characteristics of an endocrine gland. It is composed of elongated cells with long, branching processes ending on the external basement membrane of the pericapillary space. The pars tuberalis cells produce secretory granules which are accumulated in the pericapillary endings of the processes.Corresponding to its separate localization, the pars tuberalis of Rana temporaria has a separate vascularization of which the efferent capillaries anastomose with the capillary plexus of the median eminence. The general direction of the blood flow of the pars tuberalis is towards the capillaries of the median eminence. Also, the secretory products of the pars tuberalis pass into the blood stream of the hypophysial portal system.Several characteristics of the pars tuberalis show that its function must be different from that of the pars distalis of the hypophysis. Moreover, in contrast with the pars distalis, the activity of the pars tuberalis is not regulated by neurohumoral factors.The results show that a role of the pars tuberalis in the regulation of the activity of the pars distalis of the hypophysis is not excluded.     

Quantitative distribution of angiotensin II binding sites in rat brain by autoradiography

Angiotensin II binding sites were localized and quantified in individual brain nuclei from single rats by incubation of tissue sections with 1 nM 125I-[Sar1]-angiotensin II, [3H]-Ultrofilm autoradiography, computerized microdensitometry and comparison with 125I-standards. High angiotensin II binding was present in the circumventricular organs (organon vasculosum laminae terminalis, organon subfornicalis and area postrema), in selected hypothalamic nuclei (nuclei suprachiasmatis, periventricularis and paraventricularis) and in the nucleus tractus olfactorii lateralis, the nucleus preopticus medianus, the dorsal motor nucleus of the vagus and the nucleus tractus solitarii. High affinity (KA from 0.3 to 1.5 X 10(9) M-1) angiotensin II binding sites were demonstrated in the organon subfornicalis, the nucleus tractus solitarii and the area postrema after incubation of consecutive sections from single rat brains with 125I-[Sar1]-angiotensin II in concentrations from 100 pM to 5 nM. These results demonstrate and characterize brain binding sites for angiotensin II of variable high affinity binding both inside and outside the blood-brain barrier.     

Quantitative autoradiographic characterization of receptors for angiotensin II and other neuropeptides in individual brain nuclei and peripheral tissues from single rats

Autoradiographic techniques coupled with computerized microdensitometry and comparison with 125I standards were used to characterize and quantitate receptors for neuropeptides in rat brain and adrenal and pituitary glands. These techniques are rapidly performed, anatomically precise, and more sensitive than membrane binding techniques. They permit the determination of complete saturation curves and Scatchard analysis in discrete nuclei of the rat brain and in single rat pituitary and adrenal glands. Angiotensin II (AII) receptors were quantitated after incubation of 16-micron tissue sections with the AII agonist 125I-[Sar1]-AII. High-affinity, high-density AII receptors were present in the organon subfornicalis, organon vasculosum laminae terminalis and nuclei triangularis septalis, suprachiasmatis, and paraventricularis of the rat and in rat adrenal capsule-zona glomerulosa area, adrenal medulla, and anterior pituitary. These techniques could be used for precise localization and quantitation of other neuropeptide receptors in single rat brain nuclei, after optimizing the assay conditions and provided that suitable 125I ligands are available.     

Neuronal organization of the avian paraventricular nucleus: intrinsic, afferent, and efferent connections

The heterogeneous paraventricular nucleus (PVN) of birds offers favorable conditions for the analysis of intrinsic, afferent, and efferent connections of neuroendocrine systems. Paraventricular neurons are successfully impregnated with the Golgi-technique. The findings indicate a direct influence of the cerebrospinal fluid (CSF) on the magnocellular neurons that, via their axon terminals in the neural lobe of the pituitary, are also exposed to the hemal milieu. The magnocellular neurons are intermingled with parvocellular elements which may represent local interneurons. A group of parvocellular nerve cells is identified as CSF-contacting neurons. This type of cell forms a basic morphologic component of the avian neuroendocrine apparatus. Immunocytochemical and ultrastructural studies further support the concept of neuronal interactions between parvocellular and magnocellular elements. Moreover, these findings speak in favor of the existence of recurrent collaterals of the magnocellular neurons. Nerve cells giving rise to afferent connections to the PVN are located in the limbic system and autonomic areas of the upper and lower brainstem. Further afferents may originate from the subfornical organ, the organon vasculosum laminae terminalis, the ventral tegmentum, and the area postrema. Via efferent projections, the PVN is connected to the nucleus accumbens, lateral septum, several hypothalamic nuclei, the neural lobe of the pituitary, the organon vasculosum laminae terminalis, the subfornical organ, the pineal organ, the area postrema, the lateral habenular complex, and various autonomic areas of the reticular formation in the upper and lower brainstem and the spinal cord. In conclusion, the PVN may be regarded as an integral component of the neuroendocrine apparatus reciprocally coupled to the limbic system, several circumventricular organs, and various autonomic centers of the brain.     

Thyrotropin-releasing hormone (TRH)-immunoreactive structures in the brain of the domestic mallard

Summary The distribution of immunoreactive thyrotropin-releasing hormone (TRH) in the central nervous system of the domestic mallard was studied by means of the peroxidase-antiperoxidase technique. After colchicine pretreatment, the highest number of TRH-immunoreactive perikarya was found in the parvocellular subdivision of the paraventricular nucleus and in the preoptic region; a smaller number of immunostained perikarya was observed in the lateral hypothalamic area and in the posterior medial hypothalamic nucleus. TRH-immunoreactive nerve fibers were detected throughout the hypothalamus, forming a dense network in the periventricular area, paraventricular nucleus, preoptic-suprachiasmatic region, and baso-lateral hypothalamic area. TRH-containing nerve fibers and terminals occurred in the organon vasculosum of the lamina terminalis and in the external zone of the median eminence in juxtaposition with hypophyseal portal vessels. Scattered fibers were also seen in the internal zone of the median eminence and in the rostral portion of the neural lobe. Numerous TRH-immunoreactive fibers were detected in extra-hypothalamic brain regions: the highest number of immunoreactive nerve fibers was found in the lateral septum, nucleus accumbens, olfactory tubercle, and parolfactory lobe. Moderate numbers of fibers were located in the basal forebrain, dorsomedial thalamic nuclei, hippocampus, interpeduncular nucleus, and the central gray of the mesencephalon. The present findings suggest that TRH may be involved in hypophysiotropic regulatory mechanisms and, in addition, may also act as neuromodulator or neurotransmitter in other regions of the avian brain.     

Changes in activity of the organon vasculosum laminae terminalis in the annual cycle in Rana temporaria.

In 70 sexually mature male and femal Rana temporaria frogs captured in natural habitat, mean nuclear volumes for the cells of the pars ependymalis and pars parenchymalis of the organon vasculosum laminae terminalis (OVLT) were determined in seven characteristic stages in life. The mean nuclear volume for the cells of the pars ependymalis and pars parenchymalis of the OVLT showed distinct annual fluctuation. Maximum nuclear volume of the cells in both investigated parts of the OVLT were observed during the breeding period (Ist decade of April), and minimum volume of the nuclei of the pars ependymalis at the beginning of hibernation (IIIrd decade of October), and in the pars parenchymalis near the end of active life (Ist decade of September).     

Cells capable of uptake of horseradish peroxidase in some circumventricular organs of the cat and rat

Summary The structure of mesenchymal cells distributed in some of the hypendymal organs of the circumventricular system in the cat and rat was demonstrated after intravenous injection of high doses of horseradish peroxidase. These cellular elements were observed in the vicinity of blood vessels of the organon vasculosum laminae terminalis, subfornical organ and area postrema. Electron-microscopically, these cells located between the basal laminae of the brain parenchyma and the blood capillaries show long cellular processes encircling fenestrated capillaries. Light and electron-microscopic examination revealed that this cell type is identical with the horseradish peroxidase-uptake cells, previously reported in the vicinity of the hypophysial portal system. Such phagocytic cells may be considered as a cellular component intervening between the brain parenchyma and the blood stream, playing a role in selective barrier functions in the above-mentioned circumventricular organs where a blood-brain barrier in the classical sense of the definition is lacking.This work was supported by grant No. 437002 from the Ministry of Education, Science and Culture, Japan     

The distribution of gonadotropin-releasing hormone (GnRH) neurons and fibers throughout the chick brain (Gallus domesticus)

Summary Nerve fibers and perikarya containing gonadotropin-releasing hormone (GnRH-like) immunoreactivity were investigated in the brain of the three-week-old chick, Gallus domesticus using the technique of immunocytochemistry. Six major groups of perikarya were found to include the olfactory bulb, olfactory tubercle/lobus parolfactorius, nucleus accumbens, septal preoptic hypothalamic region (three sub-nuclei), lateral anterior thalamic nucleus and in and about the oculomotor complex. The immunostaining was unusual in the latter group, suggesting that the neurons may contain a GnRH-II like material. Immunoreactive fibers for GnRH were found throughout the entire brain extending from the olfactory bulbs to the caudal brainstem. Two anatomical areas, not emphasized in the past literature, which had distinct GnRH-like immunoreactivity, included the lateral anterior thalamic nucleus and the preoptic recess. The former included a group of GnRH perikarya that is also known to be a retino-recipient area while the latter contained neuronal terminals some of which appeared to be contacting the cerebrospinal fluid of the preoptic recess. An attempt was made to list all anatomical structures that contained or were juxta-positioned to sites that displayed immunoreactive perikarya and fibers including circumventricular organs.Abbreviations used in figure legends Ac Nucleus accumbens - Ap Archistriatum posterior - APH Area parahippocampalis - AVT Area ventralis (Tsai) - BO Bulbus olfactorius - CA Commissura anterior (rostralis) - CDL Area corticoidea dorsolateralis - CO Chiasma opticum - CP Commissura posterior - CPi Cortex piriformis - CPP Cortex praepiriformis - CT Commissura tectalis - CTz Corpus trapezoideum - EW Nucleus of Edinger-Westphal - FV Funiculus ventralis - GCt Substantia grisea centralis - GLv Nucleus geniculatus lateralis, pars ventralis - HD Hyperstriatum dorsale - HM Nucleus habenularis medialis - Hp Hippocampus - ICo Nucleus intercollicularis - IH Nucleus inferior hypothalami - IN Nucleus infundibuli hypothalami - IP Nucleus interpeduncularis - LA Nucleus lateralis anterior (rostralis) thalami - LHy Regio lateralis hypothalami - LPO Lobus parolfactorius - LSO Organum septi lateralis (lateral septal organ) - LT Lamina terminalis - ME Eminentia mediana - INT. Z Internal zone - EXT. Z External zone - ML Nucleus mamillaris lateralis - MM Nucleus mamillaris medialis - nBOR Nucleus opticus basalis (n. of basal optic root) - nCPa Nucleus commissurae pallii - N III Nervus oculomotorius - N V Nervus trigeminus - n V M Nucleus mesencephalicus nervi trigemini - OA Nucleus olfactorius anterior (rostralis) - OMdl Nucleus nervi oculomotorii, pars dorsomedialis - OMv Nucleus nervi oculomotorii, pars ventralis - OVLT Organum vasculosum laminae terminalis - P Glandula pinealis - PA Palaeostriatum augmentatum (caudate putamen) - PHN Nucleus periventricularis hypothalami - POM Nucleus praeopticus medialis - POMn Nucleus praeopticus medianus - POP Nucleus praeopticus periventricularis - PP Palaeostriatum primitivum - PT Nucleus praetectalis - PVN Nucleus paraventricularis magnocellularis - RPaM Nucleus reticularis paramedianus - RPR Recessus praeopticus - b, RPR Basal region, RPR - F, RPR Floor, RPR - R, RPR Roof, RPR - S Nucleus tractus solitarii - SCO Organum subcommissurale - SGP Stratum griseum periventriculare - SHL Nucleus subhabenularis lateralis - SL Nucleus septalis lateralis - SM Nucleus septalis medialis - SO Stratum opticum - SSO Organum subseptale - TO Tuberculum olfactorium - TIO Tractus isthmo-opticus - TPc Nucleus tegmenti pedunculopontinus, pars compacta (substantia nigra) - TrO Tractus opticus - TSM Tractus septomesencephalicus - VeD Nucleus vestibularis descendens - VeM Nucleus vestibularis medialis - VL Ventriculus lateralis - VLT Nucleus ventrolateralis thalami - VO Ventriculus olfactorius - V III Ventriculus tertius (third ventricle)     

Formation of the external zone of the median eminence of rats in the perinatal period

The formation of interrelations of the axons of neurosecretory cells and of ependyme cells with the capillaries of primary portal plexus in rats from the 14th day of embryogenesis till the 9th day of postnatal life was studied using the light and electron microscope methods. During the whole period under study, the basal processes of the ependyme cells reach the primary portal plexus of the capillaries. The terminals of the basal processes are usually separated from the endothelium of the capillaries by two basal membranes and enclosed pericapillary space. After the birth, some basal process penetrate in the pericapillary space and terminate on the endothelium. The surface of contact of the ependyme cell processes with the external basal membrane increases with the age, this being accompanied by the increase of pinocytotic activity. The neurosecretory axons are found in the median eminence already on the 14th day of embryogenesis, but by the 20th day only they reach the external basal membrane and penetrate sometimes in the pericapillary space. After the birth, the number of axons reaching the external basal membrane and the surface of contact between them increase gradually with, apparently, a concomitant intensification of the transport of neurohormones in the portal circulatory system of the hypophysial-hypothalamic complex.     

Monoamines and reproductive function of rats selected for strengthening of catatonia response

Weights of the body, ovaries, and uterus; estrous cycles and the contents of dopamine (DA) and norepinephrine (NE) in the hypothalami, and testosterone in blood plasma of GC females were studied at various estrous stages (diestrus and estrus). The outbred Wistar line was used as a control. In addition to reduced body weight in GC females, we observed disturbed morphological cyclic linkages between the ovaries and uterus: ovary weight reduction in diestrus (p < 0.01) and lower estrogen-related increase in uterus weight in estrus in GC females in comparison with Wistar ones. While the contents of DA and NE in GC hypothalami were reduced, the levels of these monoamines were high in estrus and low in diestrus. Testosterone levels in GC female plasma in diestrus were higher than in estrus or in Wistar rats.     

Fine structure of the Paraventricular organ of Xenopus laevis tadpoles

Summary The ultrastructure of the Paraventricular organ in the hypothalamus of Xenopus laevis tadpoles is described. It appeares that the Paraventricular organ of this anuran species is homologous with the Organon vasculosum hypothalami or the Paraventricular organ of other vertebrates.The Paraventricular organ of Xenopus laevis is characterized by an ependymal lining with only few cilia and by two types of nerve cells. Both types of nerve cells have ventricular processes, protruding into the lumen of the third ventricle and forming a network. The protrusions bear cilia of the 8+1 pattern. It has been possible to distinguish both types of nerve cells on account of their dense-core vesicles. A secretory function of both cell types is suggested.In a region close to the Paraventricular organ, another granulated type of nerve cell has been observed. A relationship between these cells and the preoptic nucleus is discussed.The author thanks Prof. Dr. P. G. W. J. van Oordt for his helpful comments and criticism, Mr. H. van Kooten for photographic assistance and Mr. F. Dijk for technical assistance.     

Über die Wandstruktur des dritten Ventrikels der Albinoratte

Summary In the ependyma of the IIIrd ventricle of the rat there are regional differences which are more complicated than those described in higher mammals. The mosaic-like structure of the ventricular wall can be particularly well demonstrated by enzyme-histochemical methods. The regional differences are shown to be correlated to special hypothalamic grisea, e.g. to the nuclei ventro-and dorsomedialis, periventricularis posterior and infundibularis or to the organon vasculosum laminae terminalis. It is thought that in these regions there are several systems, which are made up by hypothalamic grisea, their respective neuronal or neurohumoral connections, ependyma and blood vessels of the brain substance as well as of certain parts of the meninges. The role of the cerebrospinal fluid as a means of transport for certain substances is discussed.