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1

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Presence of a Pituitary Portal System in Elasmobranchs (1960)

MEURLING, PATRICK

[s.l.] : Nature Publishing Group

Nature 187 (1960), S. 336-337

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] The present investigations of the pituitary vascular system of some elasmobranchs (Scyllium canicula, Squalus acanthias, Raja batis and Raja radiata) have shown the presence of a definite portal system in these species. It consists of a primary plexus on the ventral surface of the hypothalamus, ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/187336a0

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2

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The relations between neural and intermediate lobes in the pituitary of Squalus acanthias (1962)

Meurling, Patrick

Springer

Cell & tissue research 58 (1962), S. 51-69

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ISSN: 1432-0878

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary 1. The neural and intermediate lobes of Squalus are separated by a connective tissue membrane, which is absent in only few places. 2. The neural lobe consists of three layers: ependymal, fibre and external layer. The ependymal layer contains two cell types, ependymal cells and secretory cells (Sterzi). The fibre layer is mainly formed by neurosecretory nerves, which end within the lobe. The external layer consists of a stroma of branched ependymel fibres, and neurosecretory material. 3. Along the membrane between the two lobes is a capillary network, the neural lobe plexus. 4. The intermediate lobe consists of irregular cell columns and large blood sinuses. The cell columns have a zone of strongly staining cytoplasm nearest the vessels. 5. Inside the cell columns is a system of intra-columnar connective tissue and intra-columnar arteries, the latter ending in the neural lobe plexus. 6. Nerves from the neural lobe sometimes enter the intermediate lobe, either directly through the membrane, or at places where the membrane is absent. The nerves may run between the intermedia cells or in the intra-columnar connective tissue. 7. The intermediate lobe of Squalus is penetrated by nerves only to a slight degree, in contrast to other Elasmobranch species (Scyllium, Mustelus, Pristiurus, Raja, Dasyatis, Torpedo). 8. A comparison is made between different types of Elasmobranch neurointermediate lobes, and with the neurohypophysis of other Vertebrates. It is found that Squalus has a neural lobe of fairly primitive structure, while its intermediate lobe reaches a high degree of specialization.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00406941

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3

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Nerves of the neuro-intermediate lobe of Etmopterus spinax (elasmobranchi) (1963)

Meurling, Patrick

Springer

Cell & tissue research 61 (1963), S. 183-201

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ISSN: 1432-0878

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary 1. The neural and intermediate lobes of Etmopterus are separated by a connective tissue membrane, which is absent only in restricted areas. 2. The histology of the neural and intermediate lobes shows similarities with Squalus acanthias. 3. Neurosecretory nerves enter the intermediate lobe either singly or in bundles. They form terminal swellings from which neurosecretory material or hormones probably disappear. 4. “Non-neurosecretory” nerves also enter the intermediate lobe, reaching the intermedia cells of the whole lobe. The nerves are interpreted as a secreto-motor innervation of the lobe. 5. The stainability of nerves in the neuro-intermediate lobe is discussed. It is made probable that the distal parts of the neurosecretory neurons do not become stained with silver, and that the silver-stained nerves present are of a different kind.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00339669

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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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5

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

Larsson, Leonard ; Meurling, Patrick

Springer

Cell & tissue research 204 (1979), S. 201-216

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ISSN: 1432-0878

Keywords: Colour change ; Neuro-intermediate lobe ; Hypophysis ; Transection ; Preoptico-neurohypophysial system ; Histology ; Anolis carolinensis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The capacity of colour change in intact lizards and in animals with a transected hypophysial stalk was studied during extended periods. It was concluded that, with certain exceptions, the skin colour of the lizards gives information on the circulating levels of MSH, and thereby on the function of the pars intermedia. After transection of the hypophysial stalk, three phases of chromatic behaviour were recognised. During Phase I, which lasted for about 6 days (average), dark skin was retained irrespective of the colour of the background (= high MSH levels), whereas Phase II (19 days) was characterised by the inability of the animals to become brown (= low MSH levels). A gradual recovery toward normal adaptive capacity was seen during Phase III. In the disconnected neuro-intermediate lobe, aldehyde fuchsin (AF)-positive material in the rostral region rapidly clumped and disappeared within a few days. In the caudal portion, the stainability and the varicose arrangement of fibres were retained longer, but disappeared within approximately 14 days after the operation. Proximal to the lesion, the preoptic system exhibited a marked increase in stainability with AF, starting in the median eminence and progressing in a retrograde direction toward the peptidergic nuclei. Revascularisation of the disconnected neuro-intermediate lobe occurred during the first few days. A reinnervation of AF-fibres across the transected area into the neural lobe was observed during Phase III in most animals, but AF-fibres did not reoccupy the entire lobe. In association with an outgrowth of capillaries, the regenerating fibres formed new neural lobules. This regenerative process was accompanied by an increase in blood supply from the primary plexus of the median eminence to the neuro-intermediate lobe.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00234633

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7

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The paraventricular and posterior recess organs of elasmobranchs: A system of cerebrospinal fluid-contacting neurons containing immunoreactive serotonin and somatostatin (1990)

Meurling, Patrick ; Rodríguez, Esteban M.

Springer

Cell & tissue research 259 (1990), S. 463-473

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ISSN: 1432-0878

Keywords: Cerebrospinal fluid-contacting neurons ; Paraventricular organ ; Posterior recess organ ; Somatostatin ; Serotonin ; Ultrastructure ; Immunocytochemistry ; Dogfish,Squalus acanthias skate,Raja radiata (Elasmobranchii)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The paraventricular organ (PVO) and the posterior recess organ (PRO) of two elasmobranch species, the spiny dogfish,Squalus acanthias, and the skate,Raja radiata, were investigated by use of scanning and transmission electron microscopy and immunocytochemistry employing a series of primary antisera. The PVO and PRO contained four types of cerebrospinal fluid (CSF)-contacting neurons. One type was free of secretory granules and projected a dendrite-like process into the ventricle. The other three types were distinguished according to the size of their secretory granules. The ventricular extensions of these cells were filled with secretory granules. By means of immunocytochemistry three types of CSF-contacting neurons were observed in the PVO and PRO. Type I contained only serotonin; type 2 displayed only somatostatin; type 3 was endowed with both serotonin and somatostatin. Type I dominated in the PRO, whereas type 3 was the most frequent in the PVO. The latter cells appear to be the site of origin of a loose tract formed by serotonin- and somatostatinimmunoreactive fibers projecting from the PVO into the neuropil of the PRO. Compact bundles formed exclusively by serotonin fibers were also shown to extend between the PVO and PRO. The basal processes of the CSF-contacting neurons of the PRO penetrated into the underlying neuropil. This neuropil is rich in synapses and can be regarded as an integrative area to which the basal processes of the local CSF-contacting neurons, serotonin and somatostatin fibers from the PVO, and fibers containing immunoreactive thyrotropin-releasing hormone of unknown origin, support a conspicuous input. The present findings indicate that the PVO and PRO of elasmobranchs are functionally integrated structures.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01740772

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