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Light- and electron-microscopic immunocytochemistry of a molluscan insulin-related peptide in the central nervous system of Planorbarius corneus (1992)

Sonetti, D. ; Heumen, W. R. A. ; Roubos, E. W.

Springer

Cell & tissue research 267 (1992), S. 473-481

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ISSN: 1432-0878

Keywords: Cerebral ganglia ; Neurohormones ; Molluscan insulin-related peptide ; Immunocytochemistry ; Tannic acid ; Planorbarius corneus (Mollusca)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Two groups of cerebral dorsal cells of the pulmonate snail Planorbarius corneus stain positively with antisera raised against synthetic fragments of the B- and C-chain of the molluscan pro-insulin-related prohormone, proMIP-I, of another pulmonate snail, Lymnaea stagnalis. At the light-microscopic level the somata of the dorsal cells and their axons and neurohemal axon terminals in the periphery of the paired median lip nerves are immunoreactive with both antisera. Furthermore, the canopy cells in the lateral lobes of the cerebral ganglia are positive. In addition, MIPB-immunoreactive neurons are found in most other ganglia of the central nervous system. At the ultrastructural level, pale and dark secretory granules are found in somata and axon terminals of the dorsal cells. Dark granules are about 4 times as immunoreactive to both antisera as pale granules. Release of anti-MIPB- and anti-MIPC-immunopositive contents of the secretory granules by exocytosis is apparent in material treated according to the tannic acid method. It is concluded that the dorsal and canopy cells synthesize a molluscan insulin-related peptide that is packed in the cell body into secretory granules and that is subsequently transported to the neurohemal axon terminals and released into the hemolymph by exocytosis. Thus, MIP seems to act as a neurohormone on peripheral targets. On the basis of the analogy between the dorsal cells and the MIP-producing cells in L. stagnalis, it is proposed that the dorsal cells of P. corneus are involved in the control of body growth and associated processes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00319369

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Immuno-electron microscopy of sorting and release of neuropeptides in Lymnaea stagnalis (1991)

Heumen, W. R. A. ; Roubos, E. W.

Springer

Cell & tissue research 264 (1991), S. 185-195

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ISSN: 1432-0878

Keywords: Caudodorsal cells ; Processing ; Differential storage ; Exocytosis ; Immuno-electron microscopy ; Tannic acid ; Lymnaea stagnalis (Mollusca)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The cerebral caudodorsal cells of the pulmonate snail Lymnaea stagnalis control egg laying and egglaying behavior by releasing various peptides derived from two precursors. The biosynthesis, storage, intracellular breakdown and release of three caudodorsal cell peptides were studied by means of immuno-electron microscopy using antisera raised to fragments of these peptides: (1) Caudodorsal Cell Hormone-I (CDCH-I; derived from precursor I), (2) Caudodorsal Cell Hormone-II (CDCH-II; from precursor II), and (3) α-Caudodorsal Cell Peptide (α CDCP; from both precursors). After affinity purification of the antisera, the specificity of the sera was confirmed with dotting immunobinding assays. From the ultrastructural immunocytochemical data it has been concluded that the precursor molecules are cleaved at the level of the Golgi apparatus after which the C-terminal parts (containing α CDCP) and N-terminal parts (containing CDCH-I or CDCH-II) are sorted and preferentially packaged into large electron-dense granules (MD 150 nm), respectively. Very probably, the content of the large electron-dense granules is degraded within the cell body. The immunoreactivity of the secretory granules increases during discharge from the Golgi apparatus, indicating further processing. At least a portion of the secretory granules contains all three peptides, as shown by double and triple immunopositive stainings whereas other granules appear to contain only one or two of these peptides. The caudodorsal cells release multiple peptides via exocytosis from neurohemal axon terminals into the hemolymph and from blindly ending axon collaterals into the intercellular space of the cerebral commissure (nonsynaptic release).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00305737

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Ultrastructural analysis of peptide-hormone release by exocytosis (1980)

Roubos, E. W. ; Wal-Divendal, R. M.

Springer

Cell & tissue research 207 (1980), S. 267-275

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ISSN: 1432-0878

Keywords: Exocytosis of secretory peptides ; Tannic acid ; L. stagnalis ; Locust corpora cardiaca ; Rat pituitary

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The release of neuropeptides and other proteinaceous hormones by exocytosis was studied in some detail by means of tannic acid in combination with glutaraldehyde (TAGO-method). This method strongly enhances the electron density of extracellular proteins including exocytosed secretory products, and therefore facilitates visualization of the release process in qualitative and quantitative respects. This study included a variety of neurosecretory cell types in the CNS of the freshwater snail L. stagnalis, the storage and glandular lobes of the corpora cardiaca of the locust L. migratoria, and the posterior pituitary of the rat. In addition, peptide secreting cells in the anterior pituitary were examined. The cytochemical specificity of the TAGO-method as well as the significance of “frozen” contents of exocytosing secretory granules in mammotrophs and somatotrophs of the rat is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237811

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