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1

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Distribution and quantification of serotonin-containing and autofluorescent cells in the rabbit pineal organ

Smith, A.R. ; Jongkind, J.F. ; Ariens Kappers, J.

Amsterdam : Elsevier

General and Comparative Endocrinology 18 (1972), S. 364-371

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ISSN: 0016-6480

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Biology , Medicine

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1016/0016-6480(72)90222-5

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2

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In honour of Prof. Dr. W. Birkmayer on the occasion of his 65th birthday (1976)

Ariëns Kappers, J. ; Riederer, P.

Springer

Journal of neural transmission 38 (1976), S. 169-171

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ISSN: 1435-1463

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01249436

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3

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Innervation and fluorescence histochemistry of monoamines in the pineal organ of a snake (Natrix natrix) (1968)

Quay, W. B. ; Ariëns Kappers, J. ; Jongkind, J. F.

Springer

Journal of neural transmission 31 (1968), S. 11-25

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ISSN: 1435-1463

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary We studied microscopically in serial sections the pinealin situ in brain tissue blocks from 27 specimens of adult snakes of the speciesNatrix natrix. A median, dorsal meningeal fascicle of nerve fibers appeared to be the primary and most consistent source of the pineal's innervation. By the Hillarp-Falck technique these fibers were shown to be catecholamine-containing (green-fluorescing) and to give rise to a rich intrapineal fiber system coursing primarily in the stromal channels along the blood vessels but also giving off branches into or on the parenchymal lobules. Basally, the pineal's stalk was seen to vary in its size and composition. Its variable, mostly small, non-fluorescent and contorted nerve fiber content could be largely followed to the region of the posterior commissure. It was thought that these fibers could possibly be connected with this region, and to be without necessarily any functional significance as pineal innervation is concerned. Further investigation of the exact origin and course of the fibers is, however, needed. The pineal parenchymal cells were found to be yellow-fluorescing, in line with biochemical evidence for the presence of 5-hydroxytryptamine. Increase and generality of distribution of the yellow parenchymal fluorescence followed when animals were injected with iproniazid, a monoamine oxidase inhibitor. The pineal of snakes as typified byNatrix natrix appears to be at least supperficially similar and evolutionarily convergent with respect to the pineal of some mammals in regard to morphology, innervation and distribution of catecholamines and 5-hydroxytryptamine.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02239174

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4

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The pineal gland of nocturnal mammals I. The pinealocytes of the bat (Nyctalus noctula, Schreber) (1977)

Pevet, P. ; Ariëns Kappers, J. ; Voûte, A. M.

Springer

Journal of neural transmission 40 (1977), S. 47-68

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ISSN: 1435-1463

Keywords: Pinealocytes ; bat ; ultrastructure ; secretion

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The ultrastructure of the pinealocytes of noctule bats, mammals which live most of the time in darkness or very low light intensities, was examined and compared with the pinealocytes of other mammals. Two different populations of pinealocytes (I and II) were observed. They differ in general aspect, in location and especially in their content of cell organelles involved in synthetic processes. Mitochondria, ribosomes, lysosomes and lipid inclusions were present in the perikaryon of pinealocytes of both populations. In the pinealocytes of population I some granular vesicles, of presumed Golgi origin, and some other structures were observed. Pinealocytes of population II are characterized by many glycogen granules, more or less associated with a large vacuolar system. Moreover, some small vacuoles originating from cisterns of the granular endoplasmic reticulum and containing flocculent material of a moderate electron density are described. The possibility is discussed that these small vacuoles are involved in one of the secretory processes of the pineal gland while the granular vesicles of the pinealocyte of the population I are the products of another.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01250280

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5

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Preliminary data on the function of the Paraphysis cerebri in Urodela (1949)

Ariëns Kappers, J.

Springer

Cellular and molecular life sciences 5 (1949), S. 162-164

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ISSN: 1420-9071

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Zusammenfassung Die Paraphysis cerebri ist ein zusammengesetztes tubulöses Organ, das sich in den Ventriculus impar telencephali, den vorderen Teil des 3. Ventrikels, eröffnet. Die Tubuli bestehen aus einem einschichtigen hauptsächlich kubischen bis zylindrischen Epithel auf einer Basalmembran, die mit wenigen Ausnahmen unmittelbar an die Wand von venösen Sinusoiden grenzt. Nach intrazerebralen Injektionen durch das Dach des 4. Ventrikels vonAmblystoma mexicanum mit einer 5%-Suspension von Tusche in isotonischer Ringer-Lösung zeigen sich in den Schnitten gar keine Tuscheteilchen in den paraphysären Tubuli, während diese auf und in dem Ependym und vor allem dem Epithel aller Plexus chorioidei in großer Menge sichtbar sind. Die schwarzen Teilchen werden offenbar in den Plexus resorbiert. Weiter wird eine Sekretion in den paraphysären Tubuli in der Richtung des Lumens, also nach dem Ventrikel zu, beschrieben und abgebildet. Aus dieser vorläufigen Mitteilung geht also hervor, daß die Paraphysis von Urodelen eine zusammengesetzte tubulöse extern sezernierende Drüse ist, die einen oder mehrere, wenn nicht alle Bestandteile des Liquor cerebrospinalis produziert, und daß dem Epithel der Plexus jedenfalls eine resorbierende Funktion zukommt. Eine Tabelle zeigt einige Unterschiede zwischen dem Epithel der paraphysären Tubuli und demjenigen der Plexus chorioidei.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02174433

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6

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The pineal gland of the mole (Talpa europaea L.) (1976)

Pevet, P. ; Juillard, M. T. ; Smith, A. R. ; [et al.]

Springer

Cell & tissue research 165 (1976), S. 297-306

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ISSN: 1432-0878

Keywords: Pineal gland ; Mole ; Yellow-orange autofluorescent material ; Subcommissural organ

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Description / Table of Contents: Résumé Une étude de la glande pinéale de la Taupe, animal vivant toujours dans une obscurité complète, a été entreprise selon la technique de fluorescence décrite par Falck et al. (1962). Une importante innervation catécholaminergique a été démontrée tandis que la fluorescence jaune — caractéristique des indoleamines-n'a pas été observée. Après omission du traitement par la formaldehyde, de très nombreuses cellules contenant du material autofluorescent (jaune-orange) furent observées. La nature et la fonction de ce material autofluorescent est discutée.

Notes: Summary The pineal gland of the mole, a mammal which lives in permanent darkness, has been studied using fluorescence histochemistry. An extensive catecholaminergic innervation is demonstrated. A yellow formaldehyde-induced fluorescence, characteristic of indoleamines, was not observed. If formaldehyde vapour treatment was omitted in the procedure, numerous cells containing yellow-orange autofluorescent material could be shown. The nature and possible function of this material is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00222434

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7

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Influence of castration followed by administration of LH-RH on the ultrastructure of rat pinealocytes (1976)

Karasek, M. ; Pawlikowski, M. ; Ariëns Kappers, J. ; [et al.]

Springer

Cell & tissue research 167 (1976), S. 325-339

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ISSN: 1432-0878

Keywords: Pineal organ, rat ; Ultrastructure ; Castration ; LH-RH

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The ultrastructure of adult male rat pinealocytes was studied after orchidectomy and orchidectomy followed by LH-RH administration. Castration causes an increased development of the rough endoplasmic reticulum and the Golgi apparatus as well as an increase in the number of lipid droplets and lysosomes. The changes after orchidectomy followed by LH-RH administration were more marked than after castration alone. The ultrastructural features observed after castration can be interpreted as a morphological equivalent of increased protein synthesis. The observations reported appear to indicate mutual interaction between the pineal organ and the hypothalamo-hypophyseo-gonadal system. A working hypothesis is put forward implying the presence of a negative feedback mechanism between the pineal and the adenohypophysis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00219145

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8

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Alterations in the distribution of yellow fluorescing rabbit pinealocytes produced by p-chlorophenylalanine and different conditions of illumination (1972)

Smith, A. R. ; Ariëns Kappers, J. ; Jongkind, J. F.

Springer

Journal of neural transmission 33 (1972), S. 91-111

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ISSN: 1435-1463

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Fluorescence Microscopy Changes in the density of yellow autofluorescent and serotonincontaining pinealocytes in the rabbit pineal gland have been studied under different experimental conditions such as p-chlorophenylalanine, environmental lighting and permanent darkness, using fluorescence microscopy. The yellow autofluorescent pinealocytes (Type II), particularly present in a circumscript area of the organ, increased in number during treatment of the animals with pCPA as well as during the night under environmental lighting conditions. This increase probably accurred at the cost of the decrease in number of serotonin-containing pinealocytes (Type I) in the same area, originally present. Moreover it could be demonstrated that under environmental lighting conditions both, the number of Type I and Type II cells, showed a day and night rhythm. During continuous darkness the circadian rhythm in the serotonin content of the Type I cells persists. Evidently, this rhythm is not controlled by exogenous environmental lighting conditions but endogenously. In contrast to the persisting circadian serotonin rhythm, no such fluctuations could be observed in the yellow autofluorescing compound in the Type II cells. Light Microscopy Evidence is presented indicating that the yellow autofluorescent compound, present in the rabbit pinealocytes, is identical with a protein containing much tryptophan. In the rabbit pineal gland three different patterns of intramural blood vessels can be distinguished which are, respectively, situated in (1) a thin cortex, (2) a medulla, and (3) a transition area of the gland situated between the cortex and the medulla, containing the Type I and Type II pinealocytes of population B (see introduction). These studies revealed that the Type I and Type II pinealocytes of population B in close topographical contact with the intrapineal capillary system of the transition area.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01260899

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The sensory innervation of the pineal organ in the lizard, Lacerta viridis, with remarks on its position in the trend of pineal phylogenetic structural and functional evolution (1967)

Ariëns Kappers, J.

Springer

Cell & tissue research 81 (1967), S. 581-618

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ISSN: 1432-0878

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The sensory innervation of the pineal organ of adult Lacerta viridis has been investigated. Some specimens of Lacerta muralis lillfordi were also used. In the pineal epithelium, a small number of nerve cell pericarya of a sensory type are present. They lie either solitary or in small clusters close to the basement membrane. The axons originating from the nerve cell bodies, i. e. the pineal sensory nerve fibers, first course in the intraepithelial nerve fiber layer which is only locally present and contains a restricted number of unmyelinated fibers. In Lacerta viridis, the pineal fibers generally leave the epithelium at the proximal part of the organ proper. They then form small bundles which run along the outer surface of the basement membrane in the leptomeningeal connective tissue covering. At the proximal end of the pineal stalk the single bundles assemble constituting the pineal nerve. In Lacerta muralis the fibers leave the pineal epithelium at the proximal end of the stalk running farther down within the epithelium. Many fibers become myelinated after leaving the pineal epithelium. The pineal nerve runs ventralward in the midplane just caudal to the habenular commissure to which no fibers are given off. Continuing their ventralward course between the habenular commissure and the rostral end of the posterior commissure which is traversed by some of them, the pineal fibers reach the dorsal border of the subcommissural organ. Small separate aberrant pineal bundles traverse the posterior commissure at various more caudal levels. Having reached the dorsal border of the subcommissural organ, part of the pineal fibers continue their ventralward course directly running along the lateral sides of this organ to reach the periventricular nerve fiber layer lateral and ventral to it. A restricted number of fibers first turns in a caudal direction running between the base of the posterior commissure and the base of the subcommissural organ before turning ventralward to reach the periventricular layer. Most probably, pineal fibers do neither join the posterior commissural system nor innervate the subcommissural organ. Once having reached the periventricular layer, some pineal fibers curve in a rostral direction while others, before doing so, send a collateral in a caudal direction. Both, the main fibers and the collaterals, contribute to the formation of the periventricular layer. The sites of termination of the pineal fibers could not be ascertained. From the presence of intraepithelial sensory nerve cell bodies and from literature data on the ultrastructure of pineal neurosensory cells it is concluded that the adult pineal organ of Lacerta has a, although rudimentary, (photo)sensory function. The demonstration by our guest-worker Dr. W. B. Quay, of the intraepithelial presence of a tryptamine compound, probably serotonin, points, moreover, to a secretory function of this organ. In adult Lacerta a well-developed parietal nerve connects the parietal eye with the left lateral habenular nucleus. It traverses the habenular commissure.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00541016

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