Morphometric analysis of parietal cell membrane transformations in isolated gastric glands

Summary Changes in parietal cell membranous structures that accompany the onset of acid secretion were studied with electron microscopy using isolated gastric glands from rabbit. A stereological analysis was performed to quantitate the morphological changes occurring within 5 min following histamine stimulation. These changes were compared to the changes resulting from osmotic expansion of parietal cell components following addition of 1mm aminopyrine (AP) to glands incubated in medium containing 108mm K⁺ (high-K⁺). Morphometric analyses, together with measurements of glandular water content, indicated that parietal cells swell in high-K⁺ medium. Addition of 1mm AP to glands incubated in high-K⁺ medium resulted in massive distention of the secretory canaliculus but no difference was observed in the amount of tubulovesicular membrane or the relative size of these cytoplasmic structures. In the histamine-treated glands the parietal cells displayed a rapid loss of tubulovesicular membrane and a reciprocal increase in canalicular membrane. These morphological changes were complete long before a maximum level of acid formation was achieved. Taken together, these results indicate that; (i) the morphological change accompanying stimulation does not require acid formationper se; (ii) the site of acid secretion is the intracellular canaliculus and not the tubulovesicles; (iii) there is no preexisting actual or potential continuity between the tubulovesicular space and the canalicular space; and (iv) the AP-induced expansion of the canaliculus in high-K⁺ medium, while yielding some valuable information, is not an appropriate model for studying the normal stimulus-induced morphological transition, despite a superficial similarity of appearance.     

Muscarinic responses of gastric parietal cells

Summary Isolated rabbit gastric glands were used to study the nature of the muscarinic cholinergic responses of parietal cells. Carbachol (CCh, 100 m) stimulation of acid secretion, as measured by the accumulation of aminopyrine, was inhibited by the M1 antagonist, pirenzepine, with an IC₅₀ of 13 m; by the M2 antagonist, 11,2-(diethylamino)methyl-1 piperidinyl acetyl-5,11-dihydro-6H-pyrido 2,3-b 1,4 benzodiazepin-6-one (AF-DX 116), with an IC₅₀ of 110 m; and by the M1/M3 antagonist, diphenylacetoxy-4-methylpiperidinemethiodide (4-DAMP), with an IC₅₀ of 35nm. The three antagonists displayed equivalent IC₅₀ values for the inhibition of carbachol-stimulated production of¹⁴CO₂ from radiolabeled glucose, which is a measure of the turnover of the H,K-ATPase, the final step of acid secretion. Intracellular calcium levels were measured in gastric glands loaded with FURA 2. Carbachol was shown to both release calcium from an intracellular pool and to promote calcium entry across the plasma membrane. The calcium entry was inhibitable by 20 m La³⁺. The relative potency of the three muscarinic antagonists for inhibition of calcium entry was essentially the same as for inhibition of acid secretion or pump related glucose oxidation. Image analysis of the glands showed the effects of carbachol, and of the antagonists, on intracellular calcium were occurring largely in the parietal cell. The rise in cell calcium due to release of calcium from intracellular stores was inhibited by 4-DAMP with an IC₅₀ of 1,7nm, suggesting that the release pathway was regulated by a low affinity M3 muscarinic receptor or state; Ca entry and acid secretion are regulated by a high affinity M3 muscarinic receptor or state, inhibited by higher 4-DAMP concentrations (>30nm), suggesting that it is the steady-state elevation of Ca that is related to parietal cell function rather than the [Ca] _i transient. Displacement of³H N-methyl scopolamine (NMS) binding to purified parietal cells by CCh showed the presence of two affinities for CCh, but only a single affinity for 4-DAMP and lower affinity for pirenzepine and AFDX 116, providing further evidence for the parietal cell location of the [Ca] _i response. Elevation of steady-state [Ca] _i levels with either ionomycin or arachidonic acid did not replicate M3 stimulation of acid secretion or glucose oxidation, hence elevation of [Ca] _i is necessary but not sufficient for acid secretion.     

Cannabinoid CB1 receptors are expressed by parietal cells of the human gastric mucosa.

Experimental data suggest that the endogenous cannabinoid system is involved in gastric function in different animal species. In most of them, CB(1) receptors have been localized on vagal terminals innervating the external wall of the stomach. We aimed at studying the putative presence and distribution of these receptors in the human gastric mucosa. To this end, we first performed Western blotting, RT-PCR, in situ hybridization, and immunohistochemical analysis of CB(1) protein distribution in biopsy samples of healthy individuals. To determine the precise cell populations expressing CB(1) receptors, we performed double immunofluorescence plus confocal microscopy analysis of the same samples. Our results show that CB(1) receptors are present in the gastric epithelium of the mucosa. Specifically, they are expressed by a subpopulation of mucosal cells, the acid-secreting parietal cells, as shown by double immunohistochemical staining and by their differential abundance in subregions of the gastric mucosa. These results reinforce the notion of a prominent role for the endocannabinoid system in the gastric function in humans and postulate the use of cannabinoid CB(1) receptors in parietal cells as new therapeutic targets for the regulation of gastric acid production.     

Ca(2+) and Mg(2+)/ATP independently trigger homotypic membrane fusion in gastric secretory membranes

Exocytic activation of gastric parietal cells represents a massive transformation. We studied a step in this process, homotypic fusion of H,K-ATPase-containing tubulovesicles, using R18 dequenching. Ca²⁺ and Mg²⁺/ATP each caused dramatic dequenching, reflecting a change in R18 distribution from 5% to 65–90% of the assay's membranes in 2.5 min. These stimuli also triggered fusion between tubulovesicles and liposomes. Independent confirmation that dequenching represented membrane fusion was established by separating tubulovesicle–liposome fusion products on density gradients. Only agents that trigger fusion allowed the transmembrane H,K-ATPase to move to low-density fractions along with R18. EC₅₀ for Ca²⁺-triggered fusion was 150 n m and for Mg²⁺/ATP-triggered fusion 1 m m , the latter having a Hill coefficient of 2.5. ATP-triggered fusion was specific for Mg²⁺/ATP, required ATP hydrolysis, and was insensitive to inhibition of NSF and/or H,K-ATPase. Fusion initiated by either trigger caused tubulovesicles to become resistant to subsequent challenge by either trigger. Ca²⁺-and Mg²⁺/ATP-triggered fusion required protein component(s) in tubulovesicles, though this was required in only one of the fusing membranes since tubulovesicles fused well with liposomes containing no proteins. Our data suggest that exocytosis in parietal cells is triggered by separate but interacting pathways and is regulated by self-inhibition.     

A marker of acid-secreting membrane movement in rat gastric parietal cells

A monoclonal antibody (mab 146.14) marker of the movement of acid-secreting membranes in rat gastric parital cells has been produced and characterized. Mab 146.14 recognized a 95-kD major component of a purified membrane fraction of rat gastric mucosa, the protein composition of which was similar to that of well characterized porcine H+ -K+ ATPase-enriched membranes, and that presented the characteristic shift of density depending on whether it was purified from resting or stimulated tissues. Further biochemical analysis characterized the antigen as a membranous protein that might be in its native form, part of a higher multimolecular complex. Immunocytochemical localization of the antigen demonstrated that only membranes related to acid secretion in parietal cells expressed the 95-kD antigen. In resting conditions, the 95-kD antigen was diffusely distributed in the cell cytoplasm associated with inactive tubulovesicles. In stimulated cells, by contrast, all the antigen was recovered associated with secretory active microvilli formed by the apical insertion of the previously resting internal tubulovesicles. In conclusion, the 95-kD antigen, presumably a part of the rat gastric proton pump, is a marker of acid-secreting membranes in rat parietal cells. The translocation of antigen and membranes, observed by both light and electron microscopy supports the fusion model of membrane insertion from a cytoplasmic storage pool to the apical surface upon stimulation of acid secretion.     

Cadmium-induced changes in parietal cell structure and functions of rats

The aim of this study was to determine the cadmium (Cd)-induced functional and structural changes in gastric parietal cells of male rats exposed to high Cd for 30 d. In the present study, control animals were fed with normal food and tap water; the remaining animals received Cd (15 ppm CdCl₂) in drinking water for the same period. Receiving Cd for 30 d increased the mean blood Cd level, the mean tissue Cd content, and the mean blood pressure (p<0.01, p<0.001, p<0.01, respectively). The basal acid output fell; however, the increases in stimulated acid output were not statistically significant. Light and electron microscopic examination revealed respectively that (1) Cd decreases the mean parietal cell number per unit from the control value of 23.46±3.84 to 19.46±2.12 (p<0.05) and it affected preferentially the cells located at the distal half of the zymogenic unit and (2) in parietal cells, the Cd-induced alterations were characterized with swollen canalicular profiles, broken-down tubulovesicles, or degenerated mitochondria. We concluded that Cd augments the elimination rate of parietal cells by increasing the alteration rate and reduced basal acid output can be explained easily with the loss of parietal cell population.     

The Golgi apparatus in the endomembrane-rich gastric parietal cells exist as functional stable mini-stacks dispersed throughout the cytoplasm

Background information. Acid‐secreting gastric parietal cells are polarized epithelial cells that harbour highly abundant and specialized, H⁺, K⁺ ATPase‐containing, tubulovesicular membranes in the apical cytoplasm. The Golgi apparatus has been implicated in the biogenesis of the tubulovesicular membranes; however, an unanswered question is how a typical Golgi organization could regulate normal membrane transport within the membrane‐dense cytoplasm of parietal cells. Results. Here, we demonstrate that the Golgi apparatus of parietal cells is not the typical juxta‐nuclear ribbon of stacks, but rather individual Golgi units are scattered throughout the cytoplasm. The Golgi membrane structures labelled with markers of both cis‐ and trans‐Golgi membrane, indicating the presence of intact Golgi stacks. The parietal cell Golgi stacks were closely aligned with the microtubule network and were shown to participate in both anterograde and retrograde transport pathways. Dispersed Golgi stacks were also observed in parietal cells from H⁺, K⁺ ATPase‐deficient mice that lack tubulovesicular membranes. Conclusions. These results indicate that the unusual organization of individual Golgi stacks dispersed throughout the cytoplasm of these terminally differentiated cells is likely to be a developmentally regulated event.     

Cellular localization and stimulation-associated distribution dynamics of syntaxin-1 and syntaxin-3 in gastric parietal cells

Syntaxins are differentially localized in polarized cells and play an important role in vesicle trafficking and membrane fusion. These soluble N-ethylmaleimide-sensitive factor attachment protein receptor (SNARE) proteins are believed to be involved in tubulovesicle trafficking and membrane fusion during the secretory cycle of the gastric parietal cell. We examined the cellular localization and distribution of syntaxin-1 and syntaxin-3 in rabbit parietal cells. Fractionation of gastric epithelial cell membranes showed that syntaxin-1 was more abundant in a fraction enriched in apical plasma membranes, whereas syntaxin-3 was found predominantly in the H,K-ATPase-rich tubulovesicle fraction. We also examined the cellular localization of syntaxins in cultured parietal cells. Parietal cells were infected with CFP-syntaxin-1 and CFP-syntaxin-3 adenoviral constructs. Fluorescence microscopy of live and fixed cells demonstrated that syntaxin-1 was primarily on the apical membrane vacuoles of infected cells, but there was also the expression of syntaxin-1 in a subadjacent cytoplasmic compartment. In resting, non-secreting parietal cells, syntaxin-3 was distributed throughout the cytoplasmic compartment; after stimulation, syntaxin-3 translocated to the apical membrane vacuoles, there co-localizing with H,K-ATPase, syntaxin-1 and F-actin. The differential location of these syntaxin isoforms in gastric parietal cells suggests that these proteins may be critical for maintaining membrane compartment identity and that they may play important, but somewhat different, roles in the membrane recruitment processes associated with secretory activation.     

The effect of neurotensin and secretin on gastric acid secretion and mucosal blood flow in man

Neurotensin stimulates pancreatic secretion directly and by potentiating the effect of secretin. Neurotensin also inhibits gastric secretion. Secretin inhibits gastric secretion as well, but whether it also interacts with neurotensin is not known. Secretin is known to inhibit gastric mucosal blood flow (GMBF). The effect of neurotensin on GMBF is not known. Acid secretion (triple lumen perfused orogastric tube) and GMBF ([14C]aminopyrine clearance) were therefore measured in 6 subjects during neurotensin, secretin and neurotensin plus secretin infusions. Neurotensin plus secretin reduced acid secretion by a median 130 (range 34-394) mumol/min which was significantly greater than either neurotensin at 36 (7-67) mumol/min or secretin 54 (20-347) mumol/min alone (P less than 0.05). This effect appeared independent of GMBF. Neurotensin plus secretin reduced GMBF by 14 (12-27) ml/min but not significantly more than neurotensin at 11 (3-20) ml/min or secretin 18 (2-27) ml/min alone. Further, there was no correlation between changes in acid output and GMBF during infusion of the peptides. We conclude that the inhibitory effects of neurotensin and secretin on gastric secretion are at least additive and together they may function as an 'enterogastrone'.     

Helicobacter pylori infection and CagA protein translocation in human primary gastric epithelial cell culture

BACKGROUND: Increasing evidence has shown that Helicobacter pylori CagA protein translocation into gastric epithelial cells plays an important role in the development of gastric inflammation and malignancy. Translocated CagA undergoes tyrosine phosphorylation in gastric adenocarcinoma cell line cells, and CagA involves disruption of cellular apical-junction complex in Madin-Darby canine kidney cells. METHODS: To elucidate whether these events take place in normal human gastric epithelium, we infected human primary gastric epithelial cells with H. pylori. RESULTS: Our results demonstrate that CagA protein was translocated into primary gastric epithelial cells and tyrosine phosphorylated. The translocated CagA induces cytoskeletal rearrangement and the disruption of tight junctions in primary gastric epithelial cells. CONCLUSIONS: This study provides direct evidence of the modulation of gastric epithelial cells by CagA protein translocation, and advances our understanding of the pathogenesis of H. pylori infection.     

The effect of somatostatin and 16,16-dimethyl-prostaglandin E2 on bombesin-stimulated canine gastric acid, plasma gastrin and pancreatic polypeptide secretion

We studied the effect of the intravenous infusion of 16,16-dimethylprostaglandin E2 methyl ester (di-M-PGE2) and somatostatin on bombesin-stimulated gastric acid secretion, plasma gastrin and plasma pancreatic polypeptide in four chronic gastric fistula dogs. Bombesin-stimulated gastric acid secretion was significantly inhibited by somatostatin and virtually abolished by di-M-PGE2. Both agents caused significant, but indistinguishable inhibition of gastrin release (P less than 0.05). Bombesin-stimulated pancreatic polypeptide release was also significantly inhibited by both somatostatin and di-M-PGE2; the inhibitory effect of somatostatin was significantly greater than that of di-M-PGE2 (P less than 0.05). This study provides further evidence in support of the complex interrelationships between agents responsible for the modulation of gastrointestinal physiology.     

幽门螺杆菌感染新型原代人胃上皮细胞模型的建立

目的 培养三维(3D)人胃黏膜上皮类器官,转为二维(2D)原代胃黏膜细胞培养,并建成人2D原代胃上皮细胞的幽门螺杆菌感染模型。 方法 (1)从正常人胃上皮组织中分离胃腺,在含有多种生长调节和凋亡抑制等混合因子的培养基中,依附于基质胶而培养成3D类器官;(2)利用免疫荧光技术鉴定胃上皮类器官的相关分子标记;(3)研究正常原代胃上皮细胞被幽门螺杆菌感染后的形态学变化,利用免疫印迹技术鉴定幽门螺杆菌感染相关蛋白的表达水平。 结果 成功培养出可长期传代的人胃上皮3D类器官,具有典型的人胃黏膜上皮分子标记。而且3D类器官转为2D平面培养的原代胃上皮细胞,可作为幽门螺杆菌的体外原代细胞感染模型。 结论 3D胃上皮类器官,可作为2D原代胃上皮细胞的持久来源,为研究幽门螺杆菌感染人体胃上皮的分子机制带来个体化的新模型。     

A rapid method for culturing guinea pig gastric mucous cell monolayers

Summary A method has been developed for growing confluent primary cultured monolayers of guinea pig gastric mucous cells suitable for in vitro electrophysiological, transport, and pharmacological studies. Isolated mucous cells were enriched on a one-step Percoll density gradient and plated on fibronectin-coated plastic dishes or in small cups with holes containing glutaraldehyde-fixed Vitrogen gels. These cups were designed to fit in Ussing chambers. Mucous cells attached, proliferated, and formed confluent monolayers in 3 d. The low cuboidal cells contained periodic acid Schiff-positive mucous granules that were negative by Bowie and indirect immunofluorescent staining for pepsinogen. Electron microscopy revealed polarized mucous cells with microvilli, mucous granules, microfilaments, small mitochondria, some vacuoles, and junctional complexes that excluded wheat germ agglutinin-peroxidase. No basal lamina was present. Monolayers could be maintained for over 2 wk but subcultures were not made. The cultures were virtually free of fibroblasts. Epithelial sheets produced by this simple and rapid method can be used for electrophysiological, ion transport, and pharmacological studies. This research was supported in part by National Institutes of Health grants GM7806, AM31158, AM 15681, and AM 30303.     

AN ATOMIC FORCE MICROSCOPIC EXAMINATION OF THE APICAL MEMBRANE OF THE MAMMALIAN GASTRIC GLAND

The authors have examined the morphology of the apical membrane of living gastric glands from both the rat and rabbit with an atomic force microscope using both a conventional upright configuration and in the new inverted bioscope mode. Individual gastric glands were hand dissected and the apical membrane was exposed using a microsurgical approach. The split open glands allowed to access and directly image 4–6 cells with their apical axis available to the scanning tip of the atomic force microscope. All cells were scanned in a physiological Ringer solution at 37°C. The scans revealed that we could visualize both parietal and chief cells and to distinguish them via their unique apical topography. The parietal cells showed a variety of small canaliculi that were dispersed along the apical axis of the cell. Scans of chief cells revealed an apical surface that was covered with microvilli along the entire apical margin. The results of these studies show that it is indeed feasible to image living gastric glands at 37°C and to observe the surface topology of both the parietal and chief cell.     

Mechanisms underlying intracisternal TRH-induced stimulation of gastric acid secretion in rats

The neurohumoral pathways mediating intracisternal TRH-induced stimulation of gastric acid secretion were investigated. In urethane-anesthetized rats, with gastric and intrajugular cannulas, TRH or the analog [N-Val2]-TRH (1 microgram) injected intracisternally increased gastric acid output for 90 min. Serum gastrin levels were not elevated significantly. Under these conditions the TRH analog, unlike TRH, was devoid of thyrotropin-releasing activity as measured by serum TSH levels. In pylorus-ligated rats, gastrin values were not modified 2 h after peptide injection whereas gastric acid output was enhanced. TRH (0.1-1 micrograms) stimulated vagal efferent discharge, recorded from a multifiber preparation of the cervical vagus in urethane-anesthetized rats and the response was dose-dependent. The time course of vagal activation was well correlated with the time profile of gastric stimulation measured every 2 min. These results demonstrated that gastric acid secretory stimulation elicited by intracisternal TRH is not related to changes in circulating levels of gastrin or TSH but is mediated by the activation of efferent vagal pathways that stimulated parietal cell secretion.     

Fetal rabbit gastric epithelial cells cultured on floating collagen gels

Summary Cells were isolated from ∼ 30 d fetal rabbit stomachs and cultured on floating collagen gels. Electron microscopy showed monolayers in which only one cell type persisted. These columnar cells were joined at apical borders by tight junctions and contained an extensive endoplasmic reticular network with an occasional intracellular canaliculus. They also occasionally contained what appeared to be secretory granules (mucus?), and therefore had some characteristics of all the cell types of the intact fetal stomachs, which showed oxyntic, mucous, and undifferentiated cells. In Ussing chambers with Ringer's solution on both sides, cultures developed transepithelial potential (potential difference [PD], mV, mucosa ground)=13, resistance (resistance [R], Ω-cm²)=285, and short-circuit current (I _sc , μA/cm²)=45 (n=7), clearly indicating that cellular polarity and junctional integrity were maintained. These transport parameters were somewhat different for intact fetal stomachs (PD=20, R=70, and I _sc =220 [n=4]), which may be due to extensive folding of intact fetal stomachs or the presence of only one cell type in culture, or both. Although gastric stimulants histamine, dibutyryl cycle AMP (dbcAMP), and isobutyl-methylxanthine (IMX) (a phosphodiesterase inhibitor) did not elicit H⁺ secretion or electrophysiological changes in monolayers or intact stomachs, 10⁻⁴ M apical amiloride caused a decrease in I _sc in cultured monolayers (27%) and intact stomachs (50%). Thus, Na⁺ transport seems to be a significant fraction of ion transport in both preparations. This culture system may allow the study of oxyntic cell differentiation and the development of H⁺, Na⁺, and Cl⁻ transport in the gastric mucosa. This work was supported by NIH Grant AM 19520. The electron microscope was purchased in part by NSF Grant PM 76-80300. C. Bisbee was supported by National Cancer Institute Grants CA-05388 and CA-09041. C. Logsdon received support from the Systems and Integrative Biology Training Grant.     

Discovery of the Porosome: revealing the molecular mechanism of secretion and membrane fusion in cells

Secretion and membrane fusion are fundamental cellular processes involved in the physiology of health and disease. Studies within the past decade reveal the molecular mechanism of secretion and membrane fusion in cells. Studies reveal that membrane-bound secretory vesicles dock and fuse at porosomes, which are specialized plasma membrane structures. Swelling of secretory vesicles result in a build-up of intravesicular pressure, which allows expulsion of vesicular contents. The discovery of the porosome, its isolation, its structure and dynamics at nm resolution and in real time, its biochemical composition and functional reconstitution, are discussed. The molecular mechanism of secretory vesicle fusion at the base of porosomes, and vesicle swelling, have been resolved. With these findings a new understanding of cell secretion has emerged and confirmed by a number of laboratories.     

The change in membrane phospholipid composition influences protein secretion and cell envelope biogenesis in Escherichia coli

Secretion of periplasmic alkaline phosphatase (PhoA) encoded by the gene constituent of plasmids and the peculiar properties of cell envelope biogenesis in Escherichia coli strains with controlled synthesis of individual membrane phospholipids have been studied. Alkaline phosphatase secretion across the cytoplasmic membrane declines, while secretion into the culture medium intensifies under changed metabolism. The composition of anionic membrane phospholipids changes due to inactivation of the pgsA gene or regulation of its expression by environmental factor, as well as in the absence of the pssA gene which is responsible for the synthesis of the precursor for zwitter-ionic phospholipid — phosphatidylethanolamine. This correlates with intensified secretion of exopolysaccharides and lower content of lipopolysaccharide and lipoprotein which are responsible for barrier properties of the outer membrane. The results suggest a possible coupling of protein secretion with biogenesis of cell envelope components at a level of phospholipid metabolism.