A morphometric study of the 24-hour variations in subcellular structures of rat pancreatic acinar cells during the periweaning period

Summary Pancreatic acinar cells of rats obtained before (21 days of age) and after (31 and 42 days) weaning were morphometrically examined at six evenly spaced times during 24 h.Morphometric analysis demonstrated clear-cut variations in the average volume of the cell and nucleus, the incidence of binucleate acinar cells, and the volume and numerical densities of various cytoplasmic organelles during 24 h, at each stage. The daily mean values and variation of these parameters at 21 days clearly differed from those at 31 and 42 days. In particular, changes in the volume densities of rER and zymogen granules were bimodal at 21 days, whereas they were unimodal at 31 and 42 days. Moreoever, some parameters also differed between 31 and 42 days, the main difference being an 8 h time shift in the variation curves of the volume densities of rER and zymogen granules.These findings indicate that morphometric analysis of the subcellular structures of pancreatic acinar cells during 24 h can be used to determine their developmental stage.     

Twenty four hour variations in subcellular structures of rat pancreatic islet B-, A- and D-cells,and of portal plasma glucose and insulin levels

Summary Variations in stomach weights, plasma glucose and insulin levels in the portal vein, and in subcellular structures of rat pancreatic islet B-, A- and D-cells were examined over 24 h. The variation in stomach weights paralleled plasma glucose levels, indicating that the levels may be influenced by intestinal glucose absorption. Plasma insulin levels increased from the late dark to the early light periods, whereas they decreased from the late light to the early dark periods. The variation in plasma insulin levels was in the opposite sense to that in the relative numbers of B-cell granules. The decrease in the relative numbers of A-cell granules occurred between the late dark and early light periods. The relative numbers of D-cell granules decreased before and after the decreases in B- and A-cell granules. The variation in D-cell granules appears to correspond to the inhibitory effect of somatostatin. The relative amounts of rough endoplasmic reticulum (rER) in each cell varied in a reciprocal manner to those of B-cell granules. Moreover, the variation in plasma insulin levels coincided with variations in rER of hepatocytes and pancreatic acinar cells. The changes in rER of each cell may correlate with the trophic effect of insulin.     

A morphometric study of developing pancreatic acinar cells of rats during prenatal life

Summary The pancreatic acinar cells of rat embryos obtained at 15, 17, 19 and 21 days of gestation have been examined using fine-structural and morphometric techniques.Morphometric analysis demonstrates significant variations in the average volume of the cell, nucleus and cytoplasm, and the volume, surface and numerical densities of various cytoplasmic organelles during fetal life. In particular, the volume and surface densities of rER exhibit maximal values at 19 days of gestation, suggesting that secretory proteins are produced most actively at this time. Further-more, membrane continuity between the nuclear envelope and rER is frequently discernible in acinar cells, indicating that at this stage the rER is mainly derived from the nuclear envelope. Zymogen granules first appear at 17 days of gesstation. By 21 days, they occupy the greater part of the cytoplasm of the acinar cells, no polarity being seen in their distribution pattern. No direct evidence for the secretion of zymogen granules has been observed during fetal life.It therefore appears that membrane transport involved with intracellular movement of newly synthesized proteins from rER via the Golgi complex to zymogen granules occurs in one direction and lacks regulation.     

A morphometric study of 24-hour variations in subcellular structures of the rat pancreatic acinar cell

Summary Subcellular structures of pancreatic acinar cells were examined at six evenly spaced time points in the 24-h period (light cycle: 06.00 h–18.00 h) in four Wistar male rats at each time point. At each sampling point, the area and circumference of acinar cell bodies and the area, number and circumference of their cytoplasmic organelles were measured using a semiautomatic computer system for morphometry and a point-counting method.The area, number and circumference-area ratio of the cytoplasmic organelles were subject to strong circadian variations, and the cellular area and circumference exhibited weak circadian variations. Variation pattern of the cytoplasmic organelles suggested an intracellular route for secretory proteins during a 24-h span. From the results it was possible to divide the 24-h period into three stages. 1. The resting or protein synthetic stage (00.00 h to 08.00h): the area of the rough surfaced endoplasmic reticulum (rER) was strongly increased, and that of zymogen granules was clearly decreased. 2. The granule accumulation stage (08.00h to 16.00h): the area of the rER was markedly decreased; that of zymogen granules was increased. 3. The secretion stage (16.00 h to 00.00): as a result of the release of zymogen granules from the acinar cell, the area of zymogen granules decreased, and that of the rER increased. The relationship between the area of the rER and zymogen granules varied in a reciprocal manner. Other cytoplasmic organelles, namely the Golgi complex, condensing vacuoles, mitochondria and lysosomes also varied prominently during the 24-h span, corresponding to variations in the rER and zymogen granules.     

Rab27A Is Present in Mouse Pancreatic Acinar Cells and Is Required for Digestive Enzyme Secretion

The small G-protein Rab27A has been shown to regulate the intracellular trafficking of secretory granules in various cell types. However, the presence, subcellular localization and functional impact of Rab27A on digestive enzyme secretion by mouse pancreatic acinar cells are poorly understood. Ashen mice, which lack the expression of Rab27A due to a spontaneous mutation, were used to investigate the function of Rab27A in pancreatic acinar cells. Isolated pancreatic acini were prepared from wild-type or ashen mouse pancreas by collagenase digestion, and CCK- or carbachol-induced amylase secretion was measured. Secretion occurring through the major-regulated secretory pathway, which is characterized by zymogen granules secretion, was visualized by Dextran-Texas Red labeling of exocytotic granules. The minor-regulated secretory pathway, which operates through the endosomal/lysosomal pathway, was characterized by luminal cell surface labeling of lysosomal associated membrane protein 1 (LAMP1). Compared to wild-type, expression of Rab27B was slightly increased in ashen mouse acini, while Rab3D and digestive enzymes (amylase, lipase, chymotrypsin and elastase) were not affected. Localization of Rab27B, Rab3D and amylase by immunofluorescence was similar in both wild-type and ashen acinar cells. The GTP-bound states of Rab27B and Rab3D in wild-type and ashen mouse acini also remained similar in amount. In contrast, acini from ashen mice showed decreased amylase release induced by CCK- or carbachol. Rab27A deficiency reduced the apical cell surface labeling of LAMP1, but did not affect that of Dextran-Texas Red incorporation into the fusion pockets at luminal surface. These results show that Rab27A is present in mouse pancreatic acinar cells and mainly regulates secretion through the minor-regulated pathway.     

Immunocytochemical localization of exocrine enzymes in rat pancreatic acinar carcinoma

Ten pancreatic secretory proteins have been demonstrated in differentiated pancreatic acinar carcinoma cells by the protein A-gold immunocytochemical approach. The high resolution of the technique has allowed for the localization of the different proteins in the cellular compartments involved in protein secretion: RER, Golgi and secretory granules. The quantitative evaluation of the labeling for amylase has demonstrated the presence of an increasing gradient in the intensity from the RER to the Golgi and to the secretory granules which may reflect the process of protein concentration along the secretory pathway. These results, together with those obtained using the pulse-labeling autoradiographic approach, demonstrate that differentiated acinar carcinoma cells are capable of processing secretory proteins. When intensities of labeling obtained for different proteins on acinar carcinoma cells were compared to those obtained on normal pancreatic acinar cells, major differences were observed for some proteins. In addition, studies performed on the pancreatic tissue of the tumor-bearing animals have shown the presence of morphological alterations in the acinar cells.     

Localization of cAMP-dependent protein kinase subunits along the secretory pathway in pancreatic and parotid acinar cells and accumulation of the catalytic subunit in parotid secretory granules following beta-adrenergic stimulation

Catalytic (C) and regulatory (RI and RII) subunits of cAMP-dependent protein kinases were localized by immunoelectron microscopy in cisternae of the rough endoplasmic reticulum (rER) and in the Golgi complex of rat pancreas or parotid cells. Zymogen granules of the exocrine pancreas showed C- and RI-immunoreactivity, secretory granules of parotid acinar cells only RII-immunoreactivity. Injection of rats with isoproterenol (IPR) increased in the parotid gland the number of acinar cells with RII-labeled granules. In addition, it led to the appearance of C-immunoreactivity in the condensing vacuoles and secretory granules with a maximum at 24 h after stimulation. This was confirmed by enzyme-linked immunosorbent assay (ELISA) determinations of C- and RII-subunits in secretory granules isolated from stimulated and control parotid glands. The amount of immunoreactive C-subunits in the secretory granules increased further following repeated injections of the beta-agonist. These findings suggest the existence of secretory forms of cAMP-dependent protein kinase R- and C-subunits and their separate regulation.     

An immunocytochemical study of fetal cells at the maternal-placental interface using monoclonal antibodies to keratins,vimentin and desmin

Summary Thioredoxin and thioredoxin reductase (NADPH-oxidized thioredoxin oxidoreductase, E.C. 1.6.4.5) have been proposed to be involved in several thioldependent reduction-oxidation reactions in cells. Both proteins have been immunohistochemically demonstrated in the periphery of the cytoplasm and in cytoplasmic granules of acinar and islet cells in mouse pancreas. In animals fed ad libitum, the staining for thioredoxin was more intense in the exocrine acinar cells than in the islet cells, whereas that for thioredoxin reductase was more intense in the endocrine than in the exocrine pancreas. In the islets of fed mice all endocrine cell types showed about the same staining intensity for thioredoxin, while thioredoxin reductase was greatly enriched in the somatostatin-containing D cells. Starvation overnight caused an increased staining for both proteins in the acinar cells as well as in the islets. Under conditions of starvation, thioredoxin reductase, in contrast to thioredoxin, appeared to increase preferentially in the islet B cells, as compared with the D cells. Cysteamine treatment reduced the staining for somatostatin and for thioredoxin reductase in the D cells without any obvious effect on the other pancreatic cells. The results are compatible with a role for thioredoxin and thioredoxin reductase in secretion.     

Quantitation of ultrastructural changes in mouse pancreatic acinar cells caused by foreign serum

Quantitative changes in the pancreatic acinar cell organelles were studied in BALB/c mice injected with 1.0 ml fresh rabbit serum intraperitoneally. Groups of 5 mice were killed at 0, 1, 3, 6 and 12 h after the serum injection. Pancreatic tissue was processed for electron microscopy by glutaraldehyde and osmium tetroxide fixation and Epon embedding. The proportions of acinar cell cytoplasm (volume fractions) occupied by zymogen granules, granular endoplasmic reticulum, Golgi apparatus, mitochondria and lysosomes (including autophagosomes) were determined by the point counting method from electron micrographs. The volume fraction of lysosomes increased during the first 3 h and remained markedly elevated up to 12 h. The volume fractions of zymogen granules increased from 12 to 28% in 12 h. It was concluded that the secretory mechanism of pancreatic acinar cells was injured by the foreign serum. The injury caused accumulation of zymogen granules and increased autophagic activity in the acinar cells.     

Pancreatic acinar cell necrosis with intact storage of digestive enzymes in selenomethionine treated rats

Morphological and biochemical changes were observed in the pancreas and serum of rats after the intraperitoneal administration of selenomethionine, sodium selenite and methionine. Selenomethionine caused rapidly developing acinar cell necrosis. The first pathological changes were mitochondrial swelling and flocculent densities, and dilatation of cisternae of the endoplasmic reticulum. Zymogen granules appeared disrupted only in disintegrated acinar cells. Signs of autodigestive pancreatic inflammation with fat necrosis, elevation of pancreatic phospholipase A2 and serum amylase activities, as well as pulmonary oedema were present. Sodium selenite caused similar histologic changes to those produced by selenomethionine, but no changes were seen after methionine administration. Destruction of pancreatic acinar cells by an intraductal oleic acid injection that resulted in exocrine atrophy did not prevent systemic selenomethionine toxicity. Our results show that selenomethionine causes pancreatic acinar cell necrosis and that intracellular transport and storage of digestive enzymes is not primarily altered by this chemical.     

Pancreatic damage induced by injecting a large dose of arginine

Male Wistar rats were injected intraperitoneally with a large dose of arginine (500 mg/100 g body weight) and were sacrificed 24, 48 and 72 h later. Pancreatic tissue was examined by electron microscopy to study the resulting process of degeneration. Degeneration started with disorganization of the rough endoplasmic reticulum into whorls with a concomitant decrease in the numbers of zymogen granules. The main changes in acinar cells after 24 h were partial distension of the endoplasmic reticulum, whorls of agranular membranes encircling zymogen granules and perinuclear vacuoles. At this time large sequestered areas in the cytoplasm contained disarranged rough endoplasmic reticulum and degraded zymogen granules. The mitochondria showed only slight changes. After 48 h, dissociation and necrosis of acinar cells were noted. Subsequently, the necrotic cells were replaced by interstitial tissue composed of leucocytes and fibroblasts. It was concluded that a large dose of arginine is toxic to the rat pancreas when injected intraperitoneally. The early morphological changes of the acinar cells may be related to metabolic alterations associated with the endoplasmic reticulum. The disorganization of the endoplasmic reticulum and the reduced number of zymogen granules may indicate disturbance of protein synthesis. The focal sequestration and degradation of the cytoplasm seemed to represent changes of the acinar cells associated with removal of damaged organelles.     

A soluble form of human nectin-2 impairs exocrine secretion of pancreas and formation of zymogen granules in transgenic mice

Transgenic mouse lines expressing a soluble form of human nectin-2 (hNectin-2Ig Tg) exhibited distinctive elevation of amylase and lipase levels in the sera. In this study, we aimed to clarify the histopathology and to propose the transgenic mouse lines as new animal model for characteristic pancreatic exocrine defects. The significant increase of amylase and lipase levels in sera of the transgenic lines approximately peaked at 8 weeks old and thereafter, plateaued or gradually decreased. The histopathology in transgenic acinar cells was characterized by intracytoplasmic accumulation of abnormal proteins with decrease of normal zymogen granules. The hNectin-2Ig expression was observed in the cytoplasm of pancreatic acinar cells, which was consistent with zymogen granules. However, signals of hNectin-2Ig were very weak in the transgenic acinar cells with the abnormal cytoplasmic accumulaion. The PCNA-positive cells increased in the transgenic pancreas, which suggested the affected acinar cells were regenerated. Acinar cells of hNectin-2Ig Tg had markedly small number of zymogen granules with remarkable dilation of the endoplasmic reticulum (ER) lumen containing abundant abnormal proteins. In conclusion, hNectin-2Ig Tg is proposed as a new animal model for characteristic pancreatic exocrine defects, which are due to the ER stress induced by expression of mutated cell adhesion molecule that is a soluble form of human nectin-2.     

Ultrastructural, morphometrical and immunocytochemical analyses of the exocrine pancreas in a hibernating dormouse

Pancreatic acinar cells of euthermic, hibernating and arousing individuals of the hazel dormouse Muscardinus avellanarius (Gliridae) have been observed at the electron-microscopic level and analysed by means of ultrastructural morphometry and immunocytochemistry in order to investigate possible fine structural changes of cellular components during periods of strikingly different degrees of metabolic activity. During hibernation, the cisternae of the rough endoplasmic reticulum (RER) flatten assuming a parallel pattern, the Golgi apparatus is extremely reduced and the mitochondria contain many electron-dense particles. The cell nuclei appear irregularly shaped, with deep indentations containing small zymogen granules. They also contain abundant coiled bodies and unusual constituents, such as amorphous bodies and dense granular bodies. Large numbers of zymogen granules occur in all animals. However, the acinar lumina are open and filled with zymogen only in euthermic animals, whereas, in hibernating and arousing individuals, they appear to be closed. Morphometrical analyses indicate that, in pancreatic acinar cells, nuclei and zymogen granules significantly decrease in size from euthermia to hibernation, probably reflecting a drastic decrease of metabolic activities, mainly protein synthesis and processing. In all the studied animals, immunocytochemistry with specific antibodies has revealed an increasing gradient in α-amylase content along the RER-Golgi-zymogen granule pathway, reflecting the protein concentration along the secretory pathway. Moreover, during deep hibernation, significantly larger amounts of α-amylase accumulate in RER and zymogen granules in comparison to the other seasonal phases analysed. Upon arousal, all cytoplasmic and nuclear constituents restore their euthermic aspect and all morphometrical and immunocytochemical parameters exhibit the euthermic values, thereby indicating a rapid resumption of metabolic activities.     

Expression of Rab27B-binding protein Slp1 in pancreatic acinar cells and its involvement in amylase secretion

Slp1 is a putative Rab27 effector protein and implicated in intracellular membrane transport; however, the precise tissue distribution and function of Slp1 protein remain largely unknown. In this study we investigated the tissue distribution of Slp1 in mice and found that Slp1 is abundantly expressed in the pancreas, especially in the apical region of pancreatic acinar cells. Slp1 interacted with Rab27B in vivo and both proteins were co-localized on zymogen granules. Morphological analysis of fasted Slp1 knockout mice showed an increased number of zymogen granules in the pancreatic acinar cells, indicating that Slp1 is part of the machinery of amylase secretion by the exocrine pancreas.     

Aldehyde fuchsin staining of pancreatic B cells. Reproducible high-contrast staining of formalin-fixed and paraffin-embedded material

Summary The use of Aldehyde Fuchsin for the demonstration of B cell granules in the pancreatic islets on material fixed in formalin and embedded in paraffin has led to variable results.Treatment of such sections for 1 h with Bouin's fluid or 5% glutaraldehyde prior to deparaffinization, however, stabilizes the secretory granules in B cells. In addition, the zymogenic granules of the acinar cells exhibit increased stainability with the permanganate Aldehyde Fuchsin procedure.     

Alterations of endocrine pancreas B cells in a sahelian reptile (Varanus exanthematicus) during starvation

During the long starvation period (November to June) of the lizard (Varanus exanthematicus), pancreatic B cells undergo profound modification. The degeneration of beta granules observed in electron microscopy appears correlated with the diminution of the immunoreactive insulin-like content of the pancreas. The analogy between the phenomena observed here and those reported in animals treated with alloxan is discussed.     

不同年龄大鼠小脑浦肯野细胞超微结构的变化

对不同年龄雄性Ｗｉｓｔａｒ大鼠小脑蚓剖皮质浦肯野细胞的超微结构进行了观察。结果表明,随年龄增神经内的细胞器和内涵物发生了明显变化。浦肯野细胞内粗面内质网、高尔基复合体等细胞器数量有不同程度减少;微管增加;粗面内质网排列失序,网腔扩张;高尔基器排列紊乱,囊腔扩张;线粒体扩张或固缩,     

Pancreatic atrophy in copper-deficient rats: Histochemical and ultrastructural evidence of a selective effect on acinar cells

Summary Copper deficiency had a differential effect between tissues in the rat pancreas. There was marked loss and atrophy of acinar cells, in which both hypertrophied and degenerating mitochondria were present. Cytochrome oxidase activity in acini was greatly depleted while monoamine oxidase activity was enhanced. Atrophy of acinar cells was accompanied by extensive degeneration of the rough endoplasmic reticulum, and by a failure of zymogen granule synthesis. These changes contrasted strongly with the appearance of non-acinar tissues, in which hypertrophy and degeneration of mitochondria were rarely observed. Islet tissue, pancreatic ducts and blood vessels showed no atrophic changes. Cytochrome oxidase activity in islet tissue, and in the epithelium of the main pancreatic ducts, appeared unaffected.     

Immunocytochemical localization of pancreatic carboxylic ester hydrolase in human paneth cells

The protein-A gold method using specific rabbit sera directed against pure human pancreatic chymotrypsinogen and carboxylic ester hydrolase was applied to locate these (pro)enzymes in human pancreatic acinar cells and intestinal Paneth cells. Quantitative evaluation of the labelling indicated that both (pro)enzymes are present in pancreatic acinar secretory granules. In Paneth cell secretory granules, only carboxylic ester hydrolase was present in significant amounts, although the labelling for this enzyme was less intense than that observed in pancreatic zymogen granules. The results obtained support the view that Paneth cells represent a "diffuse exocrine gland" scattered along the intestine, whose role is either to act as a substitute in the event of a deficient pancreas or to regulate the intestinal flora.     

Morphological and functional changes of dissociated single pancreatic acinar cells: testing the suitability of the single cell as a model for exocytosis and calcium signaling

Isolated single pancreatic acinar cells have long been used as a model for studying many kinds of signaling processes due to their structural and functional polarities, but without significant validation. In this study, we examined the morphological and functional changes of dissociated single pancreatic acinar cells. Acutely isolated single cells showed a collapsed membrane potential and a much reduced secretion of zymogen granules in response to acetylcholine (ACh) stimulation, whereas clustered cells showed a much more negative membrane potential and potent exocytotic secretion. The isolated single cells became vertically flattened due to the loss of supporting adhesions with nearby cells, and the granule-attached luminal membrane was severely reduced versus that of clustered cells. However, polarized Ca(2+) signals and mitochondrial localizations were relatively well preserved in the isolated single cells, in that Ca(2+) release by ACh commenced at the indented luminal membrane. In clusters, the Ca(2+) release site was closest to the lumen where more than three cells met or at the tips of conical regions of the luminal membrane. These findings suggest that the dissociated single pancreatic acinar cells preserve an intact Ca(2+) signaling machinery but alter in shape and have impaired exocytotic functions and resting membrane potentials.