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Ontogeny of the endocrine pancreas in sea bass (Dicentrarchus labrax): an ultrastructural study. I. The primordial cord and the primitive, single and primordial islets (1994)

García Hernández, M. P. ; Lozano, M. T. ; Agulleiro, B.

Springer

Cell & tissue research 276 (1994), S. 309-322

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ISSN: 1432-0878

Keywords: Endocrine pancreas ; Ontogeny ; Ultrastructure ; Dicentrarchus labrax (Teleostei)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract The primordial cord and the primitive, single and primordial islets present in the 3 earliest stages of the developing endocrine pancreas of sea bass were studied ultrastructurally. The primordial cord consisted of type I and II cells and was included in the gut. Besides these cell types, X cells were seen in the primitive islet. The single islet was made up of type I, II, III and IV cells. A correlation between these endocrine cell-types and cells previously identified immunocytochemically, was established. Type I, II, III and IV cells, correlated respectively with SST-25-, insulin-, SST-14- and glucagon-immunoreactive cells, and could be related to the D1, B, D2 and A cells, respectively, of older larvae and adult sea bass. Each cell type shows characteristic secretory granules from its first appearance. A progressive development of the organelles and an increase in the number and size of the secretory granules, whose ultrastructure also varied, was observed in the endocrine cells of the primordial cord and the succeeding islets. In 25-day-old larvae at the beginning of the fourth developmental stage, the primordial islet, the first ventral islet found, was close to a pancreatic duct and blood vessel, and consisted of type I and II cells whose ultrastructure was similar to that of the type I and II cells in the primordial cord. These data suggest a ductular origin for the pancreatic endocrine cells in the ventral pancreas. It is suggested that although endocrine cells undergo mitosis, their increase in number during the earliest development stages is principally due to the differentiation of surrounding cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00306116

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Ontogeny of the endocrine pancreas in sea bass (Dicentrarchus labrax): an ultrastructural study. II. The big and secondary islets (1994)

Agulleiro, B. ; Hernández, M. P. García ; Lozano, M. T.

Springer

Cell & tissue research 276 (1994), S. 323-331

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ISSN: 1432-0878

Keywords: Endocrine pancreas ; Ontogeny ; Ultrastructure ; Dicentrarchus labrax (Teleostei)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract The big and secondary islets of sea bass larvae were characterized ultrastructurally from, 25 to 60 days after hatching. From the 25th day, big islets consisted of inner type II and III, external type I and peripheral type IV cells. From the 55th day, type V cells appeared in limited peripheral areas. Secondary islets, first found in 32-day-old larvae, were made up of inner type II and III, external type I, and peripheral either type IV and V cells (type I islets), or only type V cells (type II islets). Type I cells contained secretory granules with a fine granular, low-medium electron-dense material, whereas the secretory granules of type II cells were smaller and had a high electron-dense core with diffused limits; needle and rod-like crystalloid contents were occasionally found. Type III secretory granules posessed a homogeneous, high or medium electron-dense material with or without a clear halo. Type IV cells had secretory granules with a polygonal dense core embedded in a granular matrix and granules containing a high or medium electron-dense material. Type V cells had secretory granules with a fine granular, high or medium electron-dense content. These cell-types correlated with cells previously identified immuno-cytochemically, as regards to their distribution in the islets, and related to those characterized ultrastructurally in adult specimens. Thus, types I, II, III, IV and V correspond to D1, B, D2, A and PP cells, respectively. From the 32nd day onwards, endocrine cells of all the different types were found grouped, type V cells also being observed in isolation close to pancreatic ducts and/or blood vessels. Small groups consisting of type I and II cells were found in 40-day-old larvae. A mitotic centroacinar ductular cell containing some secretory granules similar to those of type I cells, was seen adjacent to a type I cell. As the larvae grew older, the endoplasmic reticulum developed, the number of free ribosomes decreased, and the number and size of the secretory granules increased. Dark type I, II, III, IV and V cells were found in the islets and cell clusters from the 55th day onwards.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00306117

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Ontogeny of some endocrine cells of the digestive tract in sea bass (Dicentrarchus labrax): An immunocytochemical study (1994)

García Hernández, M. P. ; Lozano, M. T. ; Agulleiro, B.

Springer

Cell & tissue research 277 (1994), S. 373-383

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ISSN: 1432-0878

Keywords: Endocrine cells ; Gut ; Ontogeny ; Regulatory peptides ; Immunocytochemistry ; Dicentrarchus labrax (Teleostei)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract Serotonin- and ten peptide-immunoreactive (IR) cell types were identified in the digestive tract of sea bass (Dicentrarchus labrax L.) larvae of four morphofunctional phases ranging in age from hatching to 61 days. The sequence of appearance and location of endocrine cells during ontogenetic development of the larvae was determined. The differentiation of endocrine cells followed a distal-proximal gradient in the gut which paralleled the morphofunctional differentiation. Serotonin-IR cells were identified in the last portion of the digestive tract from phase I onwards and in the gastric region from phase III, before these regions were morphofunctionally differentiated; met-enkephalin-IR cells were identified from phase II onwards in both the differentiated rectum and the undifferentiated intestine; cholecystokinin (CCK)- and synthetic human gastrin-34-IR cells were located only in the intestine and first found in the undifferentiated intestine of phase II; human gastrin-17-, peptide YY (PYY)- and neuropeptide Y (NPY)-IR cells appeared in the intestine from phase II and in stomach in phase IV, when it showed gastric glands; pancreatic polypeptide (PP)- and glucagon-IR cells were observed in both intestine and stomach, but insulin- and somatostatin-IR cells only in stomach, from phase III, during which the intestine but not the stomach was differentiated. PP- and PYY-, PP- and glucagon-, and PYY- and glucagon-like immunoreactivities coexisted from their first appearance in some cells of the gut.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00327785

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