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Exocrine pancreas under experimental conditions (1976)

Forssmann, Wolf G. ; Metz, Jürgen

Springer

Cell & tissue research 171 (1976), S. 467-482

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ISSN: 1432-0878

Keywords: Exocrine pancreas ; Secretion process ; Protein synthesis ; Ultrastructure ; Freeze-fracturing

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary After the application of parachlorophenylalanine (pCPA), an amino acid analogue, paracrystalline inclusions are observed in the exocrine pancreas of the rat. The formation of the paracrystalline structures varies according to the dose and the time of examination. Although the first alterations can be seen in the Golgi apparatus and the condensing vacuoles, the main localization of these structures is within the cisternae of the RER. At the same time as degenerative changes occur in the cells, involving autophagic and heterophagic processes, regneration also takes place. With the freeze-fracturing method, the paracrystalline inclusions are interpreted as lamellae or plates of probably altered secretory proteins in extremely extended RER-cisternae. The fracture surfaces of the paracrystals show a periodicity of about 80 Å running diagonally to the main axis of the paracrystalline structures, which are mainly oriented from the basal parts of the exocrine pancreatic cells to the cell apices. The mechanism of paracrystalline formation is discussed on the basis of the morphologic results. It could be shown that after pCPA administration the amylase content is decreased concomittantly with degranulation. pCPA seems not to be incorporated into secretory proteins; high intracellular concentrations, however, are required to induce the formation of the paracrystalline structures. This morphological study is the basis for other studies dealing with secretion and intracellular transport in the pancreatic acinar cell under experimental conditions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00220239

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Exocrine pancreas under experimental conditions (1976)

Metz, Jürgen ; Forssmann, W. G.

Springer

Cell & tissue research 173 (1976), S. 221-235

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ISSN: 1432-0878

Keywords: Exocrine pancreas ; Secretion process ; In vitro experiments ; Ultrastructure ; Parachlorophenylalanine ; Protein synthesis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The in vitro formation of paracrystalline structures after addition of high concentrations of amino acids to the incubation medium was investigated in pancreatic lobules and pancreatic homogenates. It could be shown that even in the homogenate, pCPA induced the formation of paracrystalline structures which exhibited the same ultrastructural arrangement as seen in the in vivo induced paracrystalline inclusions in the RER of the rat pancreas. In correlation with the morphological alterations, the functional consequences to the secretory process, i.e. amylase discharge, discharge of pulse-labeled proteins and incorporation of 3H-leucine into pancreatic proteins, were studied in pancreatic lobules. Two different approaches were used. Firstly, the effect of pCPA-pretreatment of rats and secondly, the effect of higher pCPA concentrations in the incubation medium on the secretory process in untreated pancreatic lobules were studied. A nonparallelism of inhibition of the three different steps of the secretory process depending, with respect to its extent, on time after pCPA-application (4–72 h) and on the concentration of pCPA (1 · 10-5 to 1 · 10-2 M) in the incubation medium was found. In addition to specific effects probably due to pCPA and to the paracrystalline inclusions, unspecific alterations, particularly accompanying degenerative processes after in vivo pretreatment, could be differentiated.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00221377

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Exocrine pancreas under experimental conditions (1977)

Metz, Jürgen ; Forssman, Wolf. G. ; Ito, Susumn

Springer

Cell & tissue research 177 (1977), S. 459-474

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ISSN: 1432-0878

Keywords: Exocrine pancreas ; Isolated cells ; Cell membrane ; Tight junctions ; Gap junctions ; Ultrastructure ; Freeze-fracturing

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The ultrastructure of the cell membrane and intercellular junctions was studied after isolation of exocrine pancreatic cells by tryptic digestion and mechanical treatment. The number and distribution of membrane associated particles does not change significantly when acinar cells in situ are compared to those after the isolation procedure. However, intercellular junctions undergo distinct alterations. Gap junctions in normal pancreatic cells are macular in shape and localized at the lateral parts of the cell membrane. In isolated acinar cells gap junctions are irregularly shaped, more extended, and frequently associated with tight junctions. Tight junctions form belt-like structures which are found to persist after isolation but subsequently become elongated and interrupted. Thus extensive macular areas of tight junctions develop. Further, the strands on the P-face and the grooves on the E-face of freeze-fracture replicas change in array, dissociate, and become loosely packed on large membrane areas. The present investigation shows that the intramembranous proteins of tight and gap junctions are mobile structures within the fluid membrane. The shape of their array is dependent on the form of the intercellular contact zone.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00220607

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