Literature DB >> 991218

Electron microscopy of the rabbit pineal organ in vitro. Evidence of norepinephrine-stimulated secretory activity of the Golgi apparatus.

H J Romijn, A J Gelsema.   

Abstract

The results presented in this study show that the rabbit pineal organ cultured in vitro retained its in vivo fine structure for at least eight days. However, the Golgi complex in the light pinealocytes stopped forming dense core vesicles while vesicle-crowned ribbons increased in number. After addition of norepinephrine to the culture medium, the Golgi complex once more began the production of dense core vessicles. Terminals of light pinealocytic processes then often contained Golgi dense core vesicles in close contact with the cell membrane, suggesting the release of the vesicular content into the intercellular and perivascular spaces. A close topographical relationship between Golgi dense core vesicles and vesicle-crowned ribbons was observed.

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Year:  1976        PMID: 991218     DOI: 10.1007/bf00399519

Source DB:  PubMed          Journal:  Cell Tissue Res        ISSN: 0302-766X            Impact factor:   5.249


  11 in total

1.  Pineal factors other than melatonin.

Authors:  I Ebels
Journal:  Gen Comp Endocrinol       Date:  1975-02       Impact factor: 2.822

2.  The ultrastructure of the rabbit pineal gland after sympathectomy, parasympathectomy, continuous illumination, and continuous darkness.

Authors:  H J Romijn
Journal:  J Neural Transm       Date:  1975       Impact factor: 3.575

3.  Growth of embryonic avian and mammalian tibiae on a relatively simple chemically defined medium.

Authors:  J D BIGGERS; R B GWATKIN; S HEYNER
Journal:  Exp Cell Res       Date:  1961-10       Impact factor: 3.905

4.  The culture of mature organs in a synthetic medium.

Authors:  O A TROWELL
Journal:  Exp Cell Res       Date:  1959-01       Impact factor: 3.905

5.  Ultrastructure of rat pineal gland in organ culture; influence of norepinephrine, dibutyryl cyclic adenosine 3',5'-monophosphate and adenohypophysis.

Authors:  M Karasek
Journal:  Endokrinologie       Date:  1974-11

6.  Synthesis and storage of serotonin by parafollicular (C) cells of the thyroid gland of active, prehibernating and hibernating bats.

Authors:  E A Nunez; M D Gershon
Journal:  Endocrinology       Date:  1972-04       Impact factor: 4.736

7.  Studies on a non-melatonin pineal anti-gonadotrophin.

Authors:  B Benson; M J Matthews; A E Rodin
Journal:  Acta Endocrinol (Copenh)       Date:  1972-02

8.  Histophysiological evidence for the secretion of polypeptides by the pineal gland.

Authors:  A Lukaszyk; R J Reiter
Journal:  Am J Anat       Date:  1975-08

9.  Structure and innervation of the pineal gland of the rabbit, Oryctolagus cuniculus (L.). II. An electron microscopic investigation of the pinealocytes.

Authors:  H J Romijn
Journal:  Z Zellforsch Mikrosk Anat       Date:  1973-08-14

10.  Adrenergic-adenosine 3',5'-monophosphate regulation of serotonin N-acetyltransferase activity and the temporal relationship of serotonin N-acetyltransferase activity synthesis of 3H-N-acetylserotonin and 3H-melatonin in the cultured rat pineal gland.

Authors:  D Klein; J L Weller
Journal:  J Pharmacol Exp Ther       Date:  1973-09       Impact factor: 4.030
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  22 in total

1.  A pharmacological and autoragiographic study on the ultrastructural localization of indoleamine synthesis in the rabbit pineal gland.

Authors:  H J Romijn; M T Mud; P S Wolters
Journal:  Cell Tissue Res       Date:  1977-12-13       Impact factor: 5.249

2.  Effects of reserpine and p-chlorophenylalanine on the circadian rhythm of granulated vesicles in the pinealocytes of mice.

Authors:  M Krasovich; B Benson
Journal:  Cell Tissue Res       Date:  1979       Impact factor: 5.249

Review 3.  The ultrastructure of pinealocytes in the golden mole (Amblysomus hottentotus) with special reference to the granular vesicles.

Authors:  P Pevet; M A Kuyper
Journal:  Cell Tissue Res       Date:  1978-07-13       Impact factor: 5.249

4.  Ultrastructural demonstration of secretion by exocytosis in rat pinealocytes with the use of the tannic acid method.

Authors:  H P Noteborn; E W Roubos; I Ebels; A M van de Ven; P Buma
Journal:  Cell Tissue Res       Date:  1986       Impact factor: 5.249

Review 5.  On the presence of different populations of pinealocytes in the mammalian pineal gland.

Authors:  P Pevet
Journal:  J Neural Transm       Date:  1977       Impact factor: 3.575

6.  Effects of acute cold exposure on the ultrastructure of the mouse pinealocyte.

Authors:  S Matsushima; Y Morisawa
Journal:  Cell Tissue Res       Date:  1978-12-29       Impact factor: 5.249

7.  Influence of photoperiod on dense-core vesicles and synaptic ribbons of pinealocytes of the djungarian hamster (Phodopus sungorus).

Authors:  J Fechner
Journal:  J Neural Transm       Date:  1986       Impact factor: 3.575

8.  Organ culture of the goldfish pineal body. An ultrastructural and biochemical study.

Authors:  J A McNulty
Journal:  Cell Tissue Res       Date:  1984       Impact factor: 5.249

9.  Ultrastructure of the rat pineal gland grafted under the kidney capsule.

Authors:  L I Aguado; G A Benelbaz; L S Gutierrez; E M Rodriguez
Journal:  Cell Tissue Res       Date:  1977-01-05       Impact factor: 5.249

10.  Ultrastructure of the pineal organ of the killifish, Fundulus heteroclitus, with special reference to the secretory function.

Authors:  Y Omura; M A Ali
Journal:  Cell Tissue Res       Date:  1981       Impact factor: 5.249
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