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Light- and electron-microscopic demonstration of immunoreactive opsin in the pinealocytes of various vertebrates (1981)

Vigh, B. ; Vigh-Teichmann, I.

Springer

Cell & tissue research 221 (1981), S. 451-463

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ISSN: 1432-0878

Keywords: Pineal photoreceptors ; Pinealocytes ; Opsin immunoreactivity ; Rhodopsin-like photopigments ; Comparative aspects (vertebrates)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary An antibody to opsin isolated from rod outer segments of the frog retina was applied in light- and electron-microscopic immunocytochemical studies to the pineal organ of various vertebrates (Cyprinus carpio, Carassius auratus, Rana esculenta, Emys orbicularis, Pseudemys scripta elegans, Lacerta agilis and viridis, Gallus domesticus, Columba livia, Melopsittacus undulatus, Serinus canaria, Taeniopyga punctata, Didelphis virginiana, Erinaceus roumanicus, Myotis myotis, rabbit, rat, cat). A strong immunoreaction was visible in the outer segments of the pinealocytes of one anuran and several teleost species. The outer segments of pinealocytes in the chelonian reptiles and birds also contained immunoreactive opsin. Ultrastructurally, PAP complexes were localized to the photoreceptor membranes of the outer segments. Immunoreactivity for opsin could not be demonstrated in the lacertilian parietal eye and pineal organ. In the opossum (Marsupialia), pinealocytes remain in contact with the intrapineal invaginations of the pineal recess. In insectivores, the cilia of the pinealocytes exhibit a relation to glial cells similar to that between the outer segments of retinal photoreceptors and the pigment cells. The cilia of mammalian pinealocytes did not show a clear-cut immunoreactivity to opsin with the electron-microscopic technique employed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00216748

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Comparative ultrastructure of cerebrospinal fluid-contacting neurons and pinealocytes (1975)

Vigh, B. ; Vigh-Teichmann, I. ; Aros, B.

Springer

Cell & tissue research 158 (1975), S. 409-424

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ISSN: 1432-0878

Keywords: Cerebrospinal fluid-contacting neurons ; Pinealocytes ; Synapses ; Comparative ultrastructure

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The pinealocytes of fishes, amphibians, reptiles, birds and mammals have been compared with cerebrospinal fluid (CSF) contacting neurons. We found that the intraventricular dendrite terminal of the latter resembles the pinealocytic inner segment and that the atypical cilium (9x2+0 tubules) of the CSF contacting neurons is analogous with the outer segment of the pinealocytes, even though the outer segment bears photoreceptor lamellae in lower vertebrates. Regular, but small-sized photoreceptor outer segments were also found on pinealocytes of the chicken. In mammals, too, primitive outer segments are present in the form of 9x2+0 cilia similar to those of CSF contacting dendritic terminals. In the Golgi areas of the perikarya of both cell types there are granulated vesicles which may contain transmitter substances and/or neurohormones. The synaptic junctions of the pinealocytes differ from those of the CSF contacting neurons. Many synapses occur on the latter, but they appear only rarely on pinealocytes. The axons of the CSF contacting neurons form synaptic connections with other cells, or terminate as neurohormonal synaptic hemidesmosomes on the basal lamina of the brain surface. The pinealocyte axons give rise to terminals containing synaptic ribbons. Such ribbons do not occur in CSF contacting neurons. In Lacertilians, we found pinealocytic terminals without ribbons on dendrite-like profiles. On the basis of the ultrastructural comparisons, we consider the CSF contacting neurons and pinealocytes to be very similar, but not to represent precisely the same cell type.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00223836

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Liquorkontaktneurone im Nucleus infundibularis (1970)

Vigh-Teichmann, I. ; Vigh, B. ; Koritsánszky, S. ; [et al.]

Springer

Cell & tissue research 108 (1970), S. 17-34

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ISSN: 1432-0878

Keywords: Nucleus infundibularis ; Reptiles ; Liquor contacting neurons ; Ultrastructure

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Description / Table of Contents: Zusammenfassung Der Nucleus infundibularis verschiedener Reptilien wurde licht- und elektronenmikroskopisch untersucht. Zellen dieses Kernes entsenden Fortsätze durch ein mehrreihiges Ependym in den 3. Ventrikel und bilden dort freie, intraventrikuläre Nervenendigungen („Liquorkontakt-Nervenendigungen“, Lkne). Lichtmikroskopisch konnten in der Kerngruppe a) kleine, AChE-negative, toluidinblaue und b) große, AChE-positive, mit Toluidinblau hell erscheinende Nervenzellen unterschieden werden. Die knöpfchenförmigen LKNE weisen Elemente des endoplasmatischen Retikulums, freie Ribosomen, eine wechselnde Anzahl Mitochondrien, einzelne Lysosomen, asymmetrische Zilien (Typ 9+0) mit akzessorischem Basalkörper und Zilienwurzeln auf. Zwei LKNE-Typen sind unterscheidbar: a) LKNE mit granulierten Vesikeln mit einem Durchmesser von 800–1100 Å und b) LKNE mit großen, elektronendichten Granula (Durchmesser 1200–1600 Å). Im Lumen des 3. Ventrikels treten kleinkalibrige Axone auf, die kleine, granulierte Bläschen (Durchmesser 700–900 Å) enthalten und mit den LKNE des Nucleus infundibularis intraventrikuläre Synapsen bilden. Die Perikaryen des Nucleus infundibularis weisen ein reichliches endoplasmatisches Retikulum, zahlreiche Polyribosomen, Neurotubuli und Mitochondrien auf. Ähnlich wie bei den LKNE sind zwei Perikaryenarten zu unterscheiden: a) Perikaryen mit granulierten Vesikeln (Durchmesser 800–1100 Å) und b) solche mit elektronendichten Granula (1200–1700 Å). Außerdem kommen verschiedene Arten axosomatischer und axodendritischer Synapsen vor. Die Funktion der intraventrikulären Nervenendigungen und verschiedenen Synapsenarten in der Kerngruppe wird im Hinblick auf einen Informationsaustausch zwischen dem Liquor cerebrospinalis und dem Nucleus infundibularis diskutiert.

Notes: Summary The infundibular nucleus of various reptiles was studied light and electron microscopically. Cells of this nucleus send processes through a stratified ependyma into the 3rd ventricle where they form free, intraventricular nerve terminals (“liquor contacting nerve endings”, LCNE). In the nucleus, two kinds of neurons could be distinguished light microscopically: a) small, AChE-negative, toluidine blue neurons, and b) large, AChE-positive cells staining light with toluidine blue. The club shaped LCNE contain elements of the endoplasmic reticulum, free ribosomes, a various amount of mitochondria, and single lysosomes. The terminals bear asymmetrical cilia (type 9+0) supplied with accessory basal bodies and rootlet fibres. Two kinds of LCNE are demonstrable: a) LCNE containing dense-core vesicles with a diameter of about 800–1100 Å, and b) LCNE with large, electron-dense granules (diameter about 1,200–1,600 Å). In the lumen of the 3rd ventricle, there occur small axons that contain small granulated vesicles (diameter about 700–900 Å), and that form intraventricular synapses with the LCNE of the infundibular nucleus. The perikarya of the infundibular nucleus contain an abundant endoplasmic reticulum, numerous polyribosomes, neurotubules and mitochondria. Similarly to the LCNE, two kinds of perikarya can be distinguished: a) perikarya containing granulated vesicles (diameter about 800–1100 Å), and b) perikarya with electron-dense granules (diameter about 1200–1700 Å). Furthermore, different types of axosomatic and axodendritic synapses occur. The function of the intraventricular nerve terminals and the different types of synapses in the nucleus is discussed with regard to an exchange of informations between the cerebrospinal fluid and the infundibular nucleus.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00335940

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Liquorkontaktneurone im Nucleus infundibularis des Kükens (1971)

Vigh-Teichmann, I. ; Vigh, B. ; Aros, B.

Springer

Cell & tissue research 112 (1971), S. 188-200

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ISSN: 1432-0878

Keywords: Nucleus infundibularis ; Chicken ; Liquor contacting neurons ; Ultrastructure

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Description / Table of Contents: Zusammenfassung Die Neurone des Nucleus infundibularis des Kükens sind multipolar, teilweise bipolar. Ein Teil der ventrikulären Fortsätze der Nervenzellen dringt zwischen den Ependymzellen hindurch in den Liquor cerebrospinalis ein und bildet dort kugelförmige, intraventrikuläre Nervenendigungen (Durchmesser 3,5–5,5 μ). Die Liquorkontakt-Nervenendigungen (LKNE) enthalten zahlreiche Mitochondrien, endoplasmatisches Retikulum, Polyribosomen, etwa 1300 Å große granulierte Vesikel sowie locker verteilte Mikrotubuli. Die intraventrikuläre Endigung trägt ein Cilium von Typ 9+0, von dessen Basalkörper dünne Zilienwurzeln ihren Ursprung nehmen. Manchmal kommen freie Liquorzellen auf den LKNE vor. Der die intraventrikuläre Endigung bildende ventrikuläre Fortsatz hat Dendritennatur. In der hypendymalen synaptischen Zone bilden Axone, die dense-core Vesikel (1000 Å, 1300 Å) enthalten, mit den ventrikulären Dendriten Synapsen. Die Perikaryen der Nervenzellen sind durch ein reichliches endoplasmatisches Retikulum, Polyribosomen, Golgi-Areale, Mitochondrien, granulierte Vesikel (Durchmesser 1300 Å) und zahlreiche axo-somatische Synapsen charakterisiert. Im Gebiet des Nucleus infundibularis können helle und dunkle Ependymzellen unterschieden werden. Der apikale Abschnitt der letzteren bildet kleinere und größere Plasmafortsätze. Die hellen Zellen tragen zahlreiche Zilien (Typ 9+2). Aufgrund der neuen morphologischen Daten wird die mögliche Funktion der Liquorkontaktneurone des Nucleus infundibularis diskutiert.

Notes: Summary The neurons of the infundibular nucleus of the chicken are multipolar, partly bipolar. Part of the ventricular processes of the nerve cells passes by between the ependymal cells into the cerebrospinal fluid where they form globular, intraventricular nerve endings (diameter about 3,5 to 5,5 μ). The liquor contacting nerve endings (LCNE) contain numerous mitochondria, endoplasmic reticulum, polyribosomes, granulated vesicles (diameter about 1300 Å) and scattered microtubules. The intraventricular terminal bears a cilium (type 9+0), its basal body gives rise to slim rootlet fibres. Sometimes, free liquor cells occur on the LCNE. The ventricular nerve processes that build up the LCNE are dendrites. In the hypendymal synaptic zone, axons containing granulated vesicles (1000 Å, 1300 Å) form synapses with the ventricular dendrites. The perikarya of the nerve cells are characterized by an abundant endoplasmic reticulum, polyribosomes, Golgi areas, mitochondria, granulated vesicles (diameter about 1300 Å) and numerous axo-somatic synapses. In the region of the infundibular nucleus, two types of ependymal cells can be distinguished: light and dark cells. The apical part of the latter forms several smaller and larger cytoplasmic processes. The light cells bear numerous cilia (type 9+2). On the basis of the new morphological data, the possible function of the liquor contacting neurons of the infundibular nucleus is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00331840

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Cerebrospinal fluid-contacting neurons, sensory pinealocytes and Landolt's clubs of the retina as revealed by means of an electron-microscopic immunoreaction against opsin (1983)

Vigh, B. ; Vigh-Teichmann, I. ; Röhlich, P. ; [et al.]

Springer

Cell & tissue research 233 (1983), S. 539-548

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ISSN: 1432-0878

Keywords: CSF-contacting neurons ; Pinealocytes ; Retinal photoreceptors ; Landolt's clubs ; Opsin immuno-electron microscopy ; Teleostei, Amphibia

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Opsin-immunoreactive sites of hypothalamic cerebrospinal fluid (CSF)-contacting neurons, pinealocytes and retinal cells were studied in various vertebrates (Carassius auratus, Phoxinus phoxinus, Triturus cristatus, Bombina bombina, Rana esculenta) by means of postembedding immuno-electron microscopy with the use of the protein A-gold labeling method. The retina of the rat served as a general reference tissue for the quality of the immunocytochemical reaction. A strong opsin immunoreaction (rat-antibovine opsin serum) was obtained in the rod-type outer segments of photoreceptors in the retina of all species studied. Cone-type outer segments exhibited only very few antigenic binding sites. In the pineal organ of the goldfish and the frog, outer segments of the photoreceptor cells displayed strong immuno reactivity. No immunoreaction was found in hypothalamic CSF-contacting neurons and Landolt's clubs of nerve cells of the bipolar layer of the retina. The morphological similarity between the ciliated dendritic terminal of the Landolt's club and the intraventricular dendritic ending of the CSF contacting neurons is emphasized.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00212223

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