Ultrastructural changes during stimulation of amphibian oxyntic cells viewed by scanning and transmission electron microscopy

Logsdon, Craig D.; Machen, Terry E.

doi:10.1002/ar.1092020109

Cited by 10 publications

(8 citation statements)

References 31 publications

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“…In fasting conditions, the cytoplasm of these cells is filled with a conspicuous tubulovesicular membrane system. The apical surface is covered with short microvilli (Logsdon and Machen 1982).…”

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confidence: 99%

Expression of H⁺,K⁺-ATPase and Glycopattern Analysis in the Gastric Glands of Rana esculenta

Mastrodonato

Calamita

Rossi

et al. 2008

J Histochem Cytochem.

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A multidisciplinary study involving lectin histochemistry, IHC, immuno-lectin blotting, and immunogold was carried out to determine the distribution of sugar residues in the glycoproteins of Rana esculenta oxynticopeptic cells. We considered animals in two experimental conditions, fasting and fed. It is known that, in mammals, the tubulovesicular membranes are rich in proteins with several functions. The proton pump H+,K+-ATPase, a heterodimeric complex with a catalytic α-subunit and a heavily glycosylated β-subunit, responsible for acid secretion, is the most abundant. No data have been published regarding the localization and the structures of H+,K+-ATPase in amphibians. In the water frog, the luminal membrane and tubulovesicular system of oxynticopeptic cells, which differ in morphology according to their functional stage, reacted with the primary gold-conjugated antibody against the H+,K+-ATPase α-subunit. By lectin histochemistry and immunoblotting, in the oxynticopeptic cells of R. esculenta we detected the presence of N-linked glycans having fucosylated (poly)lactosamine chains, which could correspond to the oligosaccharide chains of the β subunit. The latter are somewhat different from those described in mammals, and this is probably because of an adaptation to the different microenvironmental conditions in which the oxynticopeptic cells find themselves, in terms of their different habits and phylogeny.

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confidence: 99%

Expression of H⁺,K⁺-ATPase and Glycopattern Analysis in the Gastric Glands of Rana esculenta

Mastrodonato

Calamita

Rossi

et al. 2008

J Histochem Cytochem.

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“…This model bears some analogy to the one proposed by Logsdon and Machen (1982) for the oxyntico-peptic cells of amphibians, which involves the lateral fusion of the tubules with the apical zone of the cell and the consequent formation of cytoplasmic lamellae. It requires the presence of a cytoplasmic matrix which is capable of complex changes in coordination with those of the cytomembranes.…”

Section: The Mode Of Development Of the Intracellular Canaliculusmentioning

confidence: 60%

The early changes of parietal cell structure in the course of secretory activity in the rat

1985

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The fine structure of the rat parietal cell was studied, both at rest and after stimulation by refeeding or insulin administration. Experiments on fixation procedures showed that whenever the fixative contained sucrose at a concentration higher than 0.2 M, the system of cytoplasmic membranes was clearly tubular in arrangement, whereas the omission of sucrose in the fixative usually resulted in a vesicular structure. The study with the high-voltage electron microscope of thick sections prepared by conventional techniques or by impregnation with zinc iodide-osmium (ZIO) revealed that the tubules are grouped into fascicles, and that these form a feltwork that is especially thick toward the cell apex. The development of the secretory canaliculus after stimulation appears to take place by an in situ remodeling of the cytoplasmic domain occupied by the tubular system. Cells examined after short periods of stimulation (5-15 min) showed images of the tubular system and of the canalicular structure which differed both from the nonstimulated and from the fully active (30-45 min of stimulation) cell. These features include the formation of wide cisternae and of pericanalicular cytoplasmic trabeculae or laminae, whose fine structure bears close resemblance to that of the intracanalicular processes in the same cells. These images can be ordered into a hypothetical sequence which is proposed as a model to explain the transformation of the tubular system and intervening cytoplasmic matrix into secretory canaliculus.

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“…Ultrastructural studies of amphibian oxyntic cell have been reported by numerous investigators including (Vial and Orrego, 1960;Sedar, 1961Sedar, , 1965Sedar, , 1969Lillibridge, 1968;Forte and Forte, 1971;Carlisle et al, 1978;Logsdon and Machen, 1982). There is general agreement that the resting oxyntic cell has only a few short microvilli and the small lumen may be packed with a granular substance.…”

Section: Discussionmentioning

confidence: 93%

“…In the present study, changes in the cytoplasmic membrane system of the resting frog oxyntic cell leading to membrane rearrangement during early stages of histamine stimulation were examined by the method used for the rat stomach. An earlier report on amphibian oxynticopeptic cells by routine SEM methods (Logsdon and Machen, 1982) shows little detail in the cytoplasm. In our study the membranes were clearly visualized because the cytoplasmic matrix was removed by the aldehyde-osmium-DMSO-osmium (A-ODO) method (Tanaka and Mitsushima, 1984).…”

Section: Tem Scanning Electron Microscopymentioning

confidence: 94%

Ultra-high-resolution scanning electron microscopy of the continuity of cytoplasmic and luminal membranes in frog oxyntic cells

Ogata

Yamasaki

1996

Anat. Rec.

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Background Despite numerous previous studies, the presumed continuity of the luminal and tubulovesicular membranes in frog oxyntic (oxyntico‐peptic) cells remains to be convincingly demonstrated. This study was undertaken to clarify this question by ultra‐high‐resolution scanning electron microscopy of specially prepared frog stomach specimens before and during histamine stimulation. Methods Fasted Japanese meadow frogs stimulated with histamine were used. Oxyntic cell cytoplasmic matrix was removed by the aldehyde‐osmium‐DMSO‐osmium maceration procedure and impregnated with osmium‐hydrazine. Specimens were examined without metal coating. Results In the resting oxyntic cell, the luminal membrane had closely packed surface folds forming a rather flat surface with a few short microvilli. In the cytoplasm, flattened 200–500 nm vesicles were interconnected by numerous slender 20–60 nm tubules forming the tubulovesicular network. Occasional slender tubular branches were found in continuity with the luminal membrane. After histamine stimulation, the number and length of microvilli and surface folds increased, whereas the tubulovesicular membrane system decreased. Sites of clear continuity between the luminal and tubulovesicular membranes were not abundant but were clearly demonstrated in histamine‐stimulated oxyntic cells. The small size of the tubules connecting the tubulovesicular system to the plasma membrane renders this observation by transmission electron microscopy very difficult. In these specimens, the clear continuity of the tubulovesicular network to the luminal plasma membrane became more evident. Conclusions This study confirms previous findings of increased luminal membrane and depletion of the tubulovesicle system. The demonstration of continuity between these two compartments in our SEM preparations supports the hypothesis of direct transfer of tubulovesicular membrane to oxyntic cell luminal secretory membrane. © 1996 Wiley‐Liss, Inc.

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Ultrastructural changes during stimulation of amphibian oxyntic cells viewed by scanning and transmission electron microscopy

Cited by 10 publications

References 31 publications

Expression of H⁺,K⁺-ATPase and Glycopattern Analysis in the Gastric Glands of Rana esculenta

Expression of H⁺,K⁺-ATPase and Glycopattern Analysis in the Gastric Glands of Rana esculenta

The early changes of parietal cell structure in the course of secretory activity in the rat

Ultra-high-resolution scanning electron microscopy of the continuity of cytoplasmic and luminal membranes in frog oxyntic cells

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Ultrastructural changes during stimulation of amphibian oxyntic cells viewed by scanning and transmission electron microscopy

Cited by 10 publications

References 31 publications

Expression of H+,K+-ATPase and Glycopattern Analysis in the Gastric Glands of Rana esculenta

Expression of H+,K+-ATPase and Glycopattern Analysis in the Gastric Glands of Rana esculenta

The early changes of parietal cell structure in the course of secretory activity in the rat

Ultra-high-resolution scanning electron microscopy of the continuity of cytoplasmic and luminal membranes in frog oxyntic cells

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Expression of H⁺,K⁺-ATPase and Glycopattern Analysis in the Gastric Glands of Rana esculenta

Expression of H⁺,K⁺-ATPase and Glycopattern Analysis in the Gastric Glands of Rana esculenta