Release of Neurosecretion in the Crayfish Sinus Gland

1968 ◽  
Vol 26 ◽  
pp. 150-151
Author(s):  
Richard R. Shivers
Keyword(s):  
Chemical Nature ◽  
Storage Site ◽  
Neurosecretory Granules ◽  
Sinus Gland ◽  
Diameter Class ◽  
Dense Membrane ◽  
Neurohemal Organ ◽  
Dense Vesicles

The sinus gland is a neurohemal organ located in the crayfish eyestalk and represents a storage site for neurohormones prior to their release into the circulation. The sinus gland contains 3 classes of dense, membrane-limited granules: 1) granules measuring less than 1000 Å in diameter, 2) granules measuring 1100-1400 Å in diameter, and 3) granules measuring 1500-2000 Å in diameter. Class 3 granules are the most electron-dense of the granules found in the sinus gland, while class 2 granules are the most abundant. Generally, all granules appear to undergo similar changes during release.Release of neurosecretory granules may be initiated by a preliminary fragmentation of the “parent granule” into smaller, less dense vesicles which measure about 350 Å in diameter (V, Figs. 1-3). A decrease in density of the granules prior to their fragmentation has been observed and may reflect a change in the chemical nature of the granule contents.

Fine Structure of the Crayfish Sinus Gland

1967 ◽  
Vol 25 ◽  
pp. 12-13
Author(s):  
Ann Heffington Bunt ◽  
Ebert A. Ashby
Keyword(s):  
Procambarus Clarkii ◽  
Retinal Pigment ◽  
Secretory Product ◽  
Neurosecretory Granules ◽  
Sinus Gland ◽  
Land Crab ◽  
Blood Sinus ◽  
Axon Terminals ◽  
Neurosecretory Axon ◽  
Neurosecretory Axon Terminals

The sinus gland of the crayfish, Procambarus clarkii, is located on the dorsum of the eyestalk, just beneath the exoskeleton and adjacent to the medullae interna and externa optic ganglia. It functions to secrete a variety of proteinaceous hormones, including the erythrophore concentrating hormone, melanophore dispersing hormone, molt inhibiting hormone, diabetogenic hormone, distal retinal pigment hormone, and ovary inhibiting hormone.The gland is composed of numerous neurosecretory axon terminals clustered about a branching blood sinus. The neurosecretory axons arise from cells lying some distance away from the sinus gland, in the medulla terminal is X-organ, the brain, and possibly the thoracic ganglion. The hormones are manufactured in the perikarya of these cells and transported through the axons to their terminals in the sinus gland for storage and release into the blood sinus.Small, electron dense spherules within the axons contain the hormone secretory product. These neurosecretory granules are very similar in morphology to those reported in the sinus glands of the dwarf crayfish, Cambarellus shufeldti, the land crab, Gecarcinus lateralis, and the Mediterranean isopod, Sguilla mantis. The sinus glands of each of these crustaceans contain two size ranges of neurosecretory granules: 1500-2000A and 500-900A.

Ultrastructural Study of the Neurosecretory Granules and Crustacean Hyperglycemic Hormone (CHH) Immunolocalization in the Sinus Gland of Homarus gammarus

1997 ◽  
Vol 17 (1) ◽  
pp. 6 ◽  
Author(s):  
Jocelyne Castany ◽  
François Van Herp ◽  
Guy Charmantier ◽  
Jean-Paul Trilles ◽  
Mireille Charmantier-Daures ◽  
...  
Keyword(s):  
Ultrastructural Study ◽  
Neurosecretory Granules ◽  
Sinus Gland ◽  
Crustacean Hyperglycemic Hormone ◽  
Homarus Gammarus ◽  
Hyperglycemic Hormone

The Fine Structure of Certain Secretory Cells in the Optic Tentacles of the Snail, Helix Aspersa

1964 ◽  
Vol s3-105 (69) ◽  
pp. 35-47
Author(s):  
NANCY J. LANE
Keyword(s):  
Helix Aspersa ◽  
Secretory Cells ◽  
Multivesicular Bodies ◽  
Neurosecretory Granules ◽  
Dense Granules ◽  
Golgi Bodies ◽  
Structural Details ◽  
Snail Helix Aspersa ◽  
Electron Lucent ◽  
Dense Vesicles

In Helix aspersa, the cytoplasm of the collar cells that surround the tentacular ganglion contains spheroidal granules of low electron density (α-bodies), and β-bodies that contain electron-dense vesicles within the size range of elementary neurosecretory granules. Mitochondria and lamellar Golgi complexes are also present. Mitochondria, α-bodies, fibrils, objects resembling multivesicular bodies, and moderately electrondense granules are found in the lengthy processes into which the collar cells are drawn out. One process of each bipolar collar cell seems to merge into the tentacular ganglion. This consists of neurones with processes that contain mitochondria, vesicles of various sizes, filaments, and electron-dense granules similar to elementary neurosecretory granules. The lateral cells that line the dermo-muscular sheath encasing the optic tentacles contain in their cytoplasm an endoplasmic reticulum with many ribosomes, mitochondria, Golgi complexes, and many electron-lucent globules. These globules seem to be elaborated by the lamellar Golgi bodies. There are also electron-dense inclusions, which may be lysosomes, that are scattered sparsely between the other globules and cytoplasmic components. All these structural details are similar to those found in some mucus-secreting cells. The possible nature and origin of the tentacular secretory cells are discussed.

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