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Ependymal specializations (1970)

Rodríguez, Esteban M.

Springer

Cell & tissue research 111 (1970), S. 15-31

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ISSN: 1432-0878

Keywords: Subcommissural organ ; Toads ; Apical secretion ; Fine structure

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The ependymal cells of the toad subcommissural organ produce pale and dense secretory granules. Both types of granules are mainly concentrated in the apical cytoplasm and in the perinuclear region. Pale and dense granules are synthesized by and packed in the rough endoplasmic reticulum, bypassing the step of the Golgi apparatus. The apical cytoplasm of some subcommissural ependymal cells protrudes into the ventricle. All the cells project a few cilia and numerous slender, long microvilli into the ventricular lumen. Contacting the cilia and the microvilli there is a filamentous material identical to that observed in the fibre of Reissner at the aqueduct of Sylvius. In addition to filaments, the fibre of Reissner contains vacuolar formations. The fibre is surrounded by numerous ependymal cilia, some of which are embedded in the filamentous material of the fibre. The presence of numerous microvilli projected into the ventricle and the large number of vesicles scattered in the supranuclear cytoplasm seem to indicate that the subcommissural organ may have absorption functions. The fact that the intercellular space of the ependymal layer of the subcommissural organ is not separated from the ventricular lumen by tight junctions but by zonulae adhaerentes could indicate that the cerebrospinal fluid penetrates these intercellular spaces bathing all sides of the ependymal cells. The presence in the ependymal cells of vesicles opening into the intercellular space would be in agreement with the latter possibility. There are some ultrastructural differences between the ependymal cells of the cephalic end of the subcommissural organ and those of the caudal end. A critical analysis of Reissner's fibre formation is made.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00342098

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2

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Ependymal specializations (1970)

Rodríguez, Esteban M.

Springer

Cell & tissue research 111 (1970), S. 32-50

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ISSN: 1432-0878

Keywords: Subcommissural organ ; Toads ; Basal secretion ; Fine structure

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The basal processes of the subcommissural ependymal cells contain filaments, microtubules, mitochondria and numerous pale and dense secretory granules. Both types of secretory granules are more numerous in the dilated portions of the ependymal processes. It is postulated that the periodical dilatations filled with secretory granules are responsible for the “rosary” appearance of the ependymal processes when stained with aldehyde fuchsin or chrome alum-hematoxylin. The ependymal processes of some ependymal subcommissural cells end on the external limiting membrane which covers the brain surface. The ependymal endings contain, among other structures, secretory granules and cisternae of the rough endoplasmic reticulum; this suggests that the secretory material may be locally synthetized. The presence in the subarachnoid space, close to the ependymal endings, of a particular type of blood capillaries supports the possibility of a vascular release of the secretory material present in the ependymal endings. The processes of other subcommissural ependymal cells end on blood capillaries localized in the subependymal neuropile. These capillaries have a distinctive perivascular space, where the external perivascular basement membrane is covered by a continuous “cuff” formed by ependymal endings containing secretory granules. Here again, the vascular release of the ependymal secretion seems very likely. Lastly, a third group of ependymal processes end on cavities lined by a basement membrane. It is thought that these cavities are “prolongations” of the perivascular space of the subependymal capillaries; this would contribute to establish numerous ependymo-vascular connections despite the scarce number of blood vessels. Some evidence supporting the possibility that the ependymal cells of the subcommissural organ are innervated is presented.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00342099

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Control of the pars intermedia of the lizard, Anolis carolinensis (1979)

Larsson, Leonard ; Rodríguez, Esteban M. ; Meurling, Patrick

Springer

Cell & tissue research 198 (1979), S. 411-426

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ISSN: 1432-0878

Keywords: Intermediate lobe ; Hypophysis ; Ultrastructure ; Colour change ; Control mechanisms ; Anolis carolinensis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The ultrastructure of the intermediate lobe of the hypophysis was studied in Anolis carolinensis with the use of a threefold aldehyde fixative. Lizards with a brown skin were selected. The possibility of two types of secretory cells is discussed; neither cell type is innervated. Type I cells are rarely found and contain dense granules approximately 0.3 μm in diameter; Type II cells vary widely in secretory activity. Most of the Type II cells contain a large number of dense secretory granules (up to about 1.3 μm in diameter) almost filling the cytoplasm. Rough endoplasmic reticulum (RER), Golgi apparatus and mitochondria are poorly developed. Only some of these cells show signs suggesting a high secretory activity, namely a well developed RER, Golgi apparatus and numerous mitochondria. In these cells the RER sometimes forms large intracisternal droplets (up to 7 μm in diameter). Two of the animals exhibited a more uniform, high secretory activity. Large (about 2 μm in diameter), pale vacuoles, probably of extracellular character, were found mostly in the vicinity of the perivascular septum. Their role in the release of MSH is discussed. The present data, which are discussed with reference to earlier findings (Forbes, 1972), form the morphological basis for an experimental study on regulation of MSH release (Larsson et al., 1979).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00234186

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Comparative immunocytochemical study of the subcommissural organ (1984)

Rodríguez, Estéban M. ; Oksche, Andreas ; Hein, Silvia ; [et al.]

Springer

Cell & tissue research 237 (1984), S. 427-441

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ISSN: 1432-0878

Keywords: Subcommissural organ ; Reissner's fiber ; Ependyma ; Secretory process ; Comparative analysis ; Immunocytochemistry ; Vertebrates

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The subcommissural organs (SCO) of 76 specimens belonging to 25 vertebrate species (amphibians, reptiles, birds, mammals) were studied by use of the immunoperoxidase procedure. The primary antiserum was obtained by immunizing rabbits with bovine Reissner's fiber (RF) extracted in a medium containing EDTA, DTT and urea. Antiserum against an aqueous extract of RF was also produced. The presence of immunoreactive material in cell processes and endings was regarded as an indication of a possible route of passage. Special attention was paid to the relative development of the ventricular, leptomeningeal and vascular pathways established by immunoreactive structures. The SCO of submammalian species is characterized by (i) a conspicuous leptomeningeal connection established by ependymal cells, (ii) scarce or missing hypendymal cells, and (iii) a population of ependymal cells establishing close spatial contacts with blood vessels. The SCO of most mammalian species displays the following features: (i) ependymal cells lacking immunoreactive long basal processes, (ii) hypendymal secretory cells occurring either in a scattered arrangement or forming clusters, (iii) an occasional leptomeningeal connection provided by hypendymal cells, and (iv) in certain species numerous contacts of secretory cells with blood vessels. In the hedgehog immunoreactive material was missing in the ependymal formation of the SCO, but present in hypendymal cells and in the choroid plexuses. The SCO of several species of New-and Old-World monkeys displayed immunoreactive material, whereas that of anthropoid apes (chimpanzee, orangutan) and man was completely negative with the antisera used.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00228427

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Spatial and structural interrelationships between secretory cells of the subcommissural organ and blood vessels (1984)

Rodríguez, Estéban M. ; Oksche, Andreas ; Hein, Silvia ; [et al.]

Springer

Cell & tissue research 237 (1984), S. 443-449

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ISSN: 1432-0878

Keywords: Subcommissural organ ; Ependyma ; Comparative aspects ; Immunocytochemistry ; Secretory process ; Blood vessels

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary In 76 specimens (amphibians, reptilians, mammals) belonging to 25 different vertebrate species, the region of the subcommissural organ (SCO) was investigated with the use of a primary antiserum raised against an extract of bovine Reissner's fiber+the immunoperoxidase procedure according to Sternberger et al. (1970). In the SCO of a toad (Bufo arenarum) and several species of reptiles (lacertilians, ophidians, crocodilians), the ependymal cells were the only type of secretory cell displaying vascular contacts, whereas in mammals ependymal and hypendymal cells established intimate spatial contacts with blood vessels. In Bufo arenarum, but especially in the reptilian species examined, the ependymo-vascular relationship was exerted by a population of ependymal cells having a rather constant location within the SCO and projecting to capillaries that showed a remarkably constant pattern of anatomical distribution. In the SCO of mammals the modality and degree of the structural relationships between secretory cells and blood vessels varied greatly from species to species. In the SCO of the armadillo and dog the secretory tissue was organized as a thick, highly vascularized layer with most of the cells oriented toward the capillaries. A rather opposite situation was found in the SCO of New-and Old-World monkeys, where vascular contacts were restricted to a few ependymal cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00228428

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Immunocytochemical and ultrastructural evidence for a neurophysinergic innervation of the subcommissural organ of the snake Natrix maura (1987)

Fernández-Llebrez, Pedro ; Pérez, Juan ; Cifuentes, Manuel ; [et al.]

Springer

Cell & tissue research 248 (1987), S. 473-478

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ISSN: 1432-0878

Keywords: Subcommissural organ ; Innervation ; Neu rophysins ; Mesotocin ; Immunocytochemistry ; Ultrastructure ; Snake, Natrix maura

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The subcommissural organ (SCO) of the snake Natrix maura was studied by use of the immunoperoxidase procedure. Primary antisera against bovine neurophysins (Nps I + II, OXY-Np), oxytocin (OXY), mesotocin (MST), arginine-vasotocin (AVT), somatostatin (SOM), β-endorphin (END) and bovine Reissner's fiber were used. A conventional ultrastructural study, with special emphasis on the nerve fibers present in the SCO, was also performed. Nerve fibers containing immunoreactive OXY-Np and MST were seen to reach the SCO. The staining of adjacent sections with the anti-Reissner's fiber serum showed that the OXY-Np- and MST-immunoreactive fibers were distributed among the cell bodies and processes of the ependymal secretory cells. No fibers containing immunoreactive OXY, AVT, SOM or END were found in the SCO. The ultrastructural analysis revealed in the SCO the presence of nerve fibers filled with electron-dense granules, 170–210 nm in diameter. Although a direct apposition between these fibers and the SCO cells was frequently seen, no synaptic differentiations were identified. Structures identical to the Herring bodies (found in the neurohypophysis) were seen in the SCO.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00218215

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Control of the pars intermedia of the lizard, Anolis carolinensis (1979)

Larsson, Leonard ; Rodriguez, Esteban M. ; Meurling, Patrick

Springer

Cell & tissue research 199 (1979), S. 1-23

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ISSN: 1432-0878

Keywords: Neuro-intermediate lobe ; Hypophysis ; Disconnection ; Ultrastructure ; Colour change ; Control mechanisms ; Anolis carolinensis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Morphological changes in the disconnected neuro-intermediate lobe were studied in the lizard, Anolis carolinensis from the 2nd to the 14th post-operative day using a threefold aldehyde fixative (Rodríguez, 1969). Two phases of colour change capacity were exhibited: Phase I started immediately after the transection, lasted for 6 days (mean) and was characterised by an excessive MSH release (brown skin). This phase proceeded gradually into Phase II, designated by an interruption of the MSH release (green skin). The degenerative processes and final elimination of neurons in the disconnected neural lobe propagate in a rostro-caudal direction from the transected area. The aminergic fibres (Type II) disappear within 2 days postoperatively, whereas the degeneration continues for more than 10 days in the peptidergic fibres (Type III, IV and V). The glia cells (ependyma and pituicytes) serve as very active macrophages, engulfing fragments of axons already affected by autolysis and transferring them into glial lysosomes. No apparent morphological changes occur in the shift from Phase I to II. The great majority of the secretory cells of the intermediate lobe are not affected by degenerative processes and appear to be markedly activated by the stalk transection. They exhibit numerous mitochondria, well-developed Golgi complexes forming numerous Golgi vesicles and extensive parallel cisternae of the rough endoplasmic reticulum, sometimes forming large intracisternal droplets (7 μm in diameter). Numerous pale vacuoles are seen, especially toward the intact capillaries, suggesting their coupling to the MSH release by extension of the active membrane area toward the perivascular septum. The number of these vacuoles is very markedly reduced in Phase II (no release), whereas the formation of new granules seems to proceed in early stages. The interruption of the MSH release implies a successive refilling of gradually growing secretory granules and a concomitant reduction in the development of the synthetic apparatus. Mechanisms probably involved in the control of the synthesis and release of MSH are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237724

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Reissner's fiber, massa caudalis and ampulla caudalis in the spinal cord of lamprey larvae (Geotria australis) (1987)

Rodríguez, Sara ; Rodríguez, Pablo A. ; Banse, Carlos ; [et al.]

Springer

Cell & tissue research 247 (1987), S. 359-366

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ISSN: 1432-0878

Keywords: Reissner's fiber ; Massa caudalis ; Subcommissural organ ; Spinal cord ; Central canal ; Immunocytochemistry ; Lectin histochemistry ; Lamprey ; Geotria australis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The subcommissural organ (SCO), Reissner's fiber (RF) and its massa caudalis of lamprey larvae (Geotria australis) were investigated immunocytochemically by use of an antiserum raised against bovine RF as primary antibody. The affinities of RF and massa caudalis for Ricinus communis agglutinin I (RCA) with and without previous acid hydrolysis, concanavalin A (Con A), wheat-germ agglutinin (WGA), aldehyde fuchsin, and PAS reaction were also studied. SCO and massa caudalis were strongly immunoreactive, whereas RF proper was distinctly negative. RF did not react with Con A and RCA. Only the periphery of RF was WGA-positive. RCA showed affinity for RF only after acid hydrolysis. RF was homogeneously stained by the aldehyde-fuchsin and PAS-methods. At variance with RF proper, the periphery of the massa caudalis reacted with RCA without previous acid hydrolysis, but its core was WGA-positive and reacted with RCA only after hydrolysis. It is suggested that (i) RF has a coat of glycoproteins containing sialic acid as terminal residue, whereas the massa caudalis possesses a coat with galactose as terminal residue; (ii) in RF proper and the massa caudalis the spatial arrangement of glycoproteins might be different. Routine transmission electron-microscopic observations indicate that in larvae of Geotria australis an open communication exists between the ampulla caudalis and blood capillaries via large cavities or lacunae.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00218317

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Pinealocytes immunoreactive with antisera against secretory glycoproteins of the subcommissural organ: A comparative study (1988)

Rodríguez, Esteban M. ; Korf, Horst-W. ; Oksche, Andreas ; [et al.]

Springer

Cell & tissue research 254 (1988), S. 469-480

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ISSN: 1432-0878

Keywords: Pineal complex ; Pinealocytes, receptor line ; Subcommissural organ ; Immunocytochemistry ; Protein secretion ; Neuroendocrine system Geotria australis (Cyclostomata) ; Onkorhynchus kisutch (Teleostei) ; Eupsophus roseus (Anura) ; Heloderma suspectum, Varanus monitor (Lacertilia) ; Domestic fowl ; Rat ; Bovine

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary By means of light-microscopic immunocyto-chemistry two polyclonal antibodies (AFRU, ASO; see p. 470) directed against secretory glycoproteins of the subcom-missural organ were shown to cross-react with cells in the pineal organ of lamprey larvae, coho salmon, a toad, two species of lizards, domestic fowl, albino rat and bovine (taxonomic details, see below). The AFRU-immunoreactive cells were identified as pinealocytes of the receptor line (pineal photoreceptors, modified photoreceptors or classical pinealocytes, respectively) either due to their characteristic structural features or by combining AFRU-immunoreaction with S-antigen and opsin immunocytochemistry in the same or adjacent sections. Depending on the species, AFRU- or ASO-immunoreactions were found in the entire perikaryon, inner segments, perinuclear area, and in basal processes facing capillaries or the basal lamina. In most cases, only certain populations of pinealocytes were immunolabeled; these cells were arranged in a peculiar topographical pattern. In lamprey larvae, immunoreactive pinealocytes were observed only in the pineal organ, but not in the parapineal organ. In coho salmon, the immunoreaction occurred in S-antigen-positive pinealocytes of the pineal end-vesicle, but was absent from S-antigen-immunoreactive pinealocytes of the stalk region. In the rat, AFRU-immunoreaction was restricted to S-antigen-immunoreactive pinealocytes found in the deep portion of the pineal organ and the habenular region. These findings support the concept that several types of pinealocytes exist, which differ in their molecular, biochemical and functional features. They also indicate the possibility that the AFRU- and ASO-immunoreactive material found in certain pinealocytes might represent a proteinaceous or peptidic compound, which is synthesized and released from a specialized type of pinealocyte in a hormone-like fashion. This cell type may share functional characteristics with peptidergic neurons or paraneurons.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00226496

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Light and electron-microscopic immunocytochemistry and lectin histochemistry of the subcommissural organ: Evidence for processing of the secretory material (1986)

Rodríguez, Estéban M. ; Herrera, Hernán ; Peruzzo, Bruno ; [et al.]

Springer

Cell & tissue research 243 (1986), S. 545-559

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ISSN: 1432-0878

Keywords: Subcommissural organ ; Glycoproteins ; Secretory process ; Immunocytochemistry ; Lectin histochemistry ; Rat ; Vertebrates

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The subcommissural organ (SCO) of the rat was investigated by use of histochemical and immunocytochemical methods at the light and electron-microscopic levels. Consecutive thin methacrylate sections were stained with the pseudoisocyanin (Psi), immunoperoxidase (IMC; employing an antiserum against Reissner's fiber, AFRU), periodic acid-Schiff (PAS) and periodic acid-silver methenamine (SM) techniques, and reacted with six types of lectins. Psi, SM, concanavalin A (Con A) and IMC were also used for double and triple sequential staining of the same section. Increasing dilutions of AFRU (from 1∶1000 to 1∶200 000) were used for immunostaining of serial paraffin sections. In addition, ultrastructural localization of (i) Con A-binding sites and (ii) immunoreactive secretory material was performed. Some of these procedures were also applied to the ophidian and canine SCO. Con A-positive, Psi-positive and immunoreactive materials coexisted within the same cisternae of the rough endoplasmic reticulum. The Golgi apparatus lacked Con A-positive and immunoreactive substances. Apical secretory granules and secreted material lying on the surface of the SCO showed (i) the highest affinity for AFRU, but were (ii) Con A-negative, and (iii) wheat-germ agglutinin-, PAS and SM-positive. Reissner's fiber displayed a low affinity for AFRU. It is suggested that the SCO secretes N-linked glycoproteins, the carbohydrate and protein moeities of which undergo (i) a maturation process before being released, and (ii) some kind of modification(s) after their release into the ventricle. The perivascular secretory cells of the dog SCO might secrete a material different from that secreted by the ependymal cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00218061

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