Total counts of antral gastrin cells: a simple direct method

A simple technique has been developed to quantitate the gastrin cells (G-cells) from the pyloric antrum of the rat. The antrum was digested in pronase to suspend the epithelial cells. This cell suspension was counted and pelleted. The pellet was embedded in paraffin, sectioned, then labeled using the indirect immunofluorescence technique specific for gastrin. The percentage of G-cells was determined from photographs of fluorescing sections and total G-cell numbers were determined by relating these data to total epithelial cell counts. In 14 rats the average G-cell population totaled 1.03 +/- 0.21 X 10(5) G-cells/antrum. The technique is simple, time-saving and avoids the uncertainties inherent in previous procedures for the estimation of G-cell numbers.     

Cellular origins of different forms of gastrin. The specific immunocytochemical localization of related peptides.

We have localized the antigenic determinants for the main forms of gastrin (big gastrin, G34, and little gastrin, G17) in hog antral mucosa using sequence specific antibodies and an indirect immunofluorescence technique. Populations of monospecific antibodies were obtained after affinity immunoadsorption to remove populations of unwanted specificity. The specificity of the purified antisera was established by direct binding of 125I labeled peptides to antisera at the same dilutions as those used in immunocytochemistry. The results indicate that in hog antral mucosa there is a single population of cells with the antigenic determinants of the C-terminal region of G17 and G34, the N-terminal region of G17, the N-terminal region of G34, and the intact G17 molecule. In duodenum there are cells with only C-terminal reactivity; since gastrin and CCK share a common C-terminal sequence it is concluded that this cell type contains CCK-like peptides rather than gastrin.     

Total Counts of Antral Gastrin Cells: A Simple Direct Method

A simple technique has been developed to quantitate the gastrin cells (G-cells) from the pyloric antrum of the rat. The antrum was digested in pronase to suspend the epithelial cells. This cell suspension was counted and pelleted. The pellet was embedded in paraffin, sectioned, then labeled using the indirect immunofluorescence technique specific for gastrin. The percentage of G-cells was determined from photographs of fluorescing sections and total G-cell numbers were determined by relating these data to total epithelial cell counts. In 14 rats the average G-cell population totaled 1.03 ± 0.21 ± 10⁵ G-cells/antrum. The technique is simple, time-saving and avoids the uncertainties inherent in previous procedures for the estimation of G-cell numbers.     

Staining of gastrin cells with lead-Haematoxylin.

Fixation of fragments of human antral mucosa with Helly's fluid allows gastrin-containing cells to be identified by an immunofluorescence technique. Lead-Haematoxylin staining carried out on the same sections shows selective reactivity of the immunofluorescent cells. These findings support the identification of gastrin cells with G cells, known from previous studies to react with lead-Haematoxylin.     

Immunofluorescent localization of gastrin in rabbit antropyloric mucosa to argyrophil cells exhibiting formaldehyde-ozone-induced fluorescence

Summary The cellular localization of gastrin in the rabbit pyloric antrum was established by immunofluorescence. The gastrin cell was argyrophil (Grimelius technique) and identical with a previously described cell type that emits fluorescence upon combined formaldehydeozone treatment, a feature that has been interpreted as indicating storage of peptides with NH₂-terminal tryptophan. The identity of the peptides and its relation to gastrin is unknown.     

Immuno-electron-cytochemical localization of the somatostatin cells in the human antral mucosa.

Immuno-cytochemical methods were used to identify, in light and electron microscopy, the somatostatin-containing cells of the human antral mucosa. By means of immunoperoxidase and immunofluorescence methods sequentially applied on the same section, it was shown that the somatostatin cells are distinct from the gastrin cell population; these two endocrine cell types are often closely related. On ultrathin sections from aldehyde-fixed. Epon-araldite embedded tissues, the site of storage of somatostatin was localized with the peroxidaseantiperoxidase complexes technique, after removal of the resin by means of sodium ethoxide. This procedure represents a new technical approach to the use of electron-cytochemical techniques. The results indicate that somatostatin, a growth hormone release inhibiting factor, is localized in the endocrine granules of the D cells.     

Electron microscopical identification of the immunofluorescent gastrin cells in the cat pyloric mucosa

Summary To solve the unsettled problem of the identification of the gastrin cells, a study has been undertaken on the electron microscopical characteristics of the gastrin-containing cells of the cat pyloric mucosa. Cells which, on semithin sections, were shown by an immunofluorescence method to contain gastrin, have been identified on serial ultrathin sections. The ultrastructural features of these cells are those which have been described as characteristic of the G cells of the antropyloric mucosa. Other non-entero-chromaffin endocrine cells, which have been recognized as the D cells of the gastro-intestinal mucosa, did not result to contain gastrin.     

Combined non-radioactive detection of peptide hormones and their mRNA's in endocrine cells.

Non-radioactive in situ hybridization employing detection of biotin-labeled probes by an alkaline phosphatase-based procedure has proven useful for demonstrating a wide variety of mRNA species. With certain developers, the alkaline phosphatase reaction product is both light microscopically visible and fluorescent. We have exploited this to perform simple double-stainings for mRNA's and their corresponding peptide products in human insulin and gastrin cells and in rat ACTH, MSH and gastrin cells. Such stainings show that nearly all of these cells simultaneously contain both the peptide hormone and its corresponding mRNA. Human gastrin cells show a differentiated localization of gastrin mRNA and gastrin. Thus, while gastrin immunofluorescence predominates in secretory granules present in the basolateral region of the cells, gastrin mRNA is virtually restricted to the supranuclear region of the cells. Here it may be preferentially associated with granular endoplasmic reticulum. The strict subcellular localization of gastrin mRNA differs from that of general polyadenylated RNA in the G cells and raises questions whether specific transport routes or sites of accumulation for defined mRNA species exist.     

Endocrine cells of the human gastric mucosa

Summary By light and electron microscopy investigation of the human gastric mucosa five types of ultrastructurally different endocrine cells have been detected: 5-hydroxytryptamine storing enterochromaffin (EC) cells, gastrin storing G cells, and functionally undefined ECL, D and D₁ cells. By direct application of Masson's argentaffin reaction as well as of Sevier-Munger's and Grimelius' argyrophil method to electron microscopy specimens, selective deposition of silver grains upon the endocrine granules of such cells was obtained. In particular, only EC cell granules reacted to the argentaffin method, granules of both EC and ECL cells heavily reacted to Sevier-Munger's technique, granules of EC, ECL, G and D₁ cells reacted to Grimelius' technique, while D cell granules failed to react either to argentaffin or argyrophil methods. By the application of the same silver methods to paraffin sections as well as by other selective staining methods for endocrine granules (5-hydroxytryptamine techniques, lead-haematoxylin, HCl-basic dye method), at least four of the above cell types were also identified under light microscope. This opens the way for extensive studies of such cells in conventional histologie specimens.This investigation was supported in part by grant N.70.01022.04 from the Italian Consiglio Nazionale delle Ricerche.     

Combined non-radioactive detection of peptide hormones and their mRNA's in endocrine cells

Summary Non-radioactive in situ hybridization employing detection of biotin-labeled probes by an alkaline phosphatase-based procedure has proven useful for demonstrating a wide variety of mRNA species. With certain developers, the alkaline phosphatase reaction product is both light microscopically visible and fluorescent. We have exploited this to perform simple double-stainings for mRNA's and their corresponding peptide products in human insulin and gastrin cells and in rat ACTH, MSH and gastrin cells. Such stainings show that nearly all of these cells simultaneously contain both the peptide hormone and its corresponding mRNA. Human gastrin cells show a differentiated localization of gastrin mRNA and gastrin. Thus, while gastrin immunofluorescence predominates in secretory granules present in the basolateral region of the cells, gastrin mRNA is virtually restricted to the supranuclear region of the cells. Here it may be preferentially associated with granular endoplasmic reticulum. The strict subcellular localization of gastrin mRNA differs from that of general polyadenylated RNA in the G cells and raises questions whether specific transport routes or sites of accumulation for defined mRNA species exist.     

Studies of isolated and enriched rat antral mucosa gastrin cells

A technique has been developed to obtain viable, isolated and enriched populations of gastrin cells (G-cells) from the rat stomach. Restricted tissue samples from a small area of the pyloric antrum known to be particularly rich in G-cells, were sequentially digested with pronase followed by mechanical agitation, to remove the epithelial cells. This technique resulted in a significant enrichment of G-cells (3-4 fold) since the surface epithelial cells and upper portions of the glands were discarded before the initial G-cell fraction was collected. These cells in suspension were then isolated from each other by gentle pipetting in a DNase containing solution and designated the crude preparation (CP). The G-cells were then purified further by separating the cells according to size by velocity sedimentation. The greatest concentration of G-cells (15-25%) was found in the fraction containing cells with diameters of 10 to 12 micrometer. The effectiveness of the technique was evaluated by counting G-cells as identified by electron microscopy and immunofluorescence and assessing gastrin activity by radioimmunoassay. All three methods indicated that cell separation by gravity velocity sedimentation enriched the G-cell population 15-20 fold over their concentration in the CP. The combined techniques of selective pronase digestion followed by gravity velocity sedimentation resulted in an isolated cell preparation containing a 50-100 fold increase of G-cells over their normal distribution in the intact gastric mucosa. Since these isolated G-cells retain features indicating viability, their usefulness for in vitro studies is suggested.     

Coexpression of the gastrin and somatostatin genes in differentiating and neoplastic human cells

Double immunofluorescence and in situ hybridizations performed on adjacent thin sections show that a population of normal antropyloric cells of the human stomach expresses both gastrin and somatostatin mRNA's and the corresponding peptides. Such cells were present in both adult and fetal antropyloric mucosa and were situated in the regenerative (isthmus) region of the antropyloric tubes. It is, hence, likely that these cells represent immature endocrine cells that yet have to be committed to either the gastrin or somatostatin lineage. Cells coexpressing gastrin and somatostatin were also detected in pancreatic endocrine tumours. The presence of gastrin-somatostatin cells during development and in tumours suggests that gastrin and somatostatin cells may differentiate from such multipotent precursor cells.Presented in part at the 76th Annual Meeting of the Endocrine Society, 15–18 June 1994, Anaheim, Calif., USA, Abstract no. 691     

TRH-like immunoreactivity in endocrine cells and neurons in the gastro-intestinal tract of the rat and guinea pig

Summary By use of the indirect immunofluorescence technique, the cellular localization of thyrotropin-releasing hormone (TRH) was studied in the gastrointestinal tract of rats and guinea pigs of different ages. TRH-like immunoreactivity (LI) was observed in many pancreatic islet cells of young rats and guinea pigs but only in single cells of 6-month-old rats. In aged guinea pigs, a reduction in the number of TRH-positive cells was evident; however, numerous strongly fluorescent cells were still present. In the guinea pig, TRH-LI was in addition observed in gastrin cells in the stomach. TRH-positive nerve fibers occurred in the myenteric plexus of the oesophagus, stomach and intestine of the rat, and in the muscle layers of the guinea pig. These results suggest a functional role of TRH both as hormone and neuroactive compound in various portions and sites of the gastro-intestinal tract of the rat and guinea pig     

褐马鸡幽门区内分泌细胞的免疫组织化学研究

在褐马鸡的幽门区显示出了大量嗜银细胞和亲银细胞。免疫组织化学染色表明,褐马鸡的幽门区内存在有大量G细胞和D细胞,少量EC细胞和极少量PP细胞,其中EC细胞是迄今为止首次在鸟类幽门区得到证实的一个内分泌细胞类型。规察到G细胞、D细胞和EC细胞伸出长的胞质突起与邻近细胞相接触。GRP细胞、Mo细胞、A细胞和B细胞均未在幽门区检出。     

Localization of carboxyl groups in gastric mucosa as possible sites of gastrin

Summary Human and pig gastrins contain a sequence of five consecutive glutamic acid residues. An attempt was made to localize gastrin using methods known or assumed to operate on a carboxyl mechanism. General methods for acidic groups were combined with selective blocking (methylation) and unblocking (saponification) methods to increase COOH specificity. Epithelial cells with weakly metachromatic granules could be identified in untreated sections stained with toluidine blue (pH 5). After prolonged methylation and saponification, the same and previously obscured cells were moderately to intensely metachromatic, this residual basophilia attributable to weak COOH groups. Specifically marked metachromatic cells were iron-positive after colloidal iron staining, but were delineated easily only after methylation-saponification. Metachromatic cells were also clearly demonstrated by the carboxyl method of Barrnett and Seligman and by silver impregnation (pH 5). The granular metachromatic cell demonstrated by these methods contains significant amounts of a weakly acidic component which the Barrnett-Seligman reaction indicates to be glutamic acid. Comparable staining results were obtained with gastrin producing Zollinger-Ellison islet cell adenomas. It is postulated that the COOH-rich substance is gastrin or gastrin precursor and that the metachromatic cell is responsible for its production.Supported by General Research Support Grant No 5 S01 FR05411-06.     

Localization of chromogranin A-immunoreactivity in bovine gastrointestinal endocrine cells with special reference to Grimelius silver stain.

Immunohistochemical studies of the gastrointestinal tract were carried out to characterize the cells exhibiting immunoreactivity for chromogranin A (CGA), a glycosylated protein primarily found in secretory granules of the adrenal medulla. Double immunostaining for gastrointestinal hormones and CGA revealed that in the bovine gastrointestinal tract CGA immunoreactivity occurs in mucosal epithelial cells containing gastrin, glucagon, substance P or motilin, but not in those containing somatostatin. Combined staining with anti-CGA serum and Grimelius' silver demonstrated frequent association of the two stains in a variety of endocrine cells. However, intracellular distribution of the two stains was different: CGA-immunoreactivity was detected in both supra- and infranuclear cytoplasm, whereas Grimelius' silver was mostly localized in the infranuclear region. These results suggest that CGA is the target of Grimelius' silver, as postulated recently (Rindi et al., 1986), but that some subcellular structure-related modification of molecules such as sialation is necessary for the positive Grimelius reaction.     

Simultaneous visualization of two antigens in the same tissue section by combining immunoperoxidase with immunofluorescence techniques.

A simple method was developed whereby immunoperoxidase and immunofluorescence techniques were applied in consecutive steps to demonstrate the presence of two antigens in the same tissue section. This method was applied in three model, two antigens were shown: a) each (gastrin and pepsinogen II) inside one of two different cell types (gastrin (G) and antral peptic cells), b) each (kappa or gamma light chains) inside different cells of the same type (plasma cells); also, both (kamma and gamma light chains) inside the same cell (Reed-Sternberg cell), and c) both (pepsinogen I and II) inside the same cell (chief cell of oxyntic glands). The results could be viewed and photographed either simultaneously, when the antigens were in different cells, or sequentially, when the antigens were in the same cells.     

Demonstration of Activity of Gastrin in Mammalian Pancreas

THE gastrin peptides are now known to be the hormonal mediator of the Zollinger–Ellison (ZE) syndrome¹, but the search for a non-insulin, non-histamine and/or a gastrin-like secretagogue in the normal pancreas has yielded conflicting results. Hallenbeck et al.² and Lai³, using bioassay procedures, failed to detect gastrin activity in extracts of normal pancreas from a variety of mammals including man, hog and monkey, but in man⁴ and in pig, panther, man, rabbit, albino rat and guinea-pig⁵ gastrin-containing cells have been detected by antigastrin immunofluorescence in normal pancreatic tissue. The discrepancy between the results of extraction/bioassay and immunofluorescence detection could be due either to the presence of an immunoreactive but biologically inactive gastrin deptide or its precursor in the normal pancreas, or the failure to extract and/or detect by the extraction and assay procedures used the biologically active gastrin present perhaps in very small amounts in the normal pancreas.     

Immunohistochemical demonstration of renin in the juxtaglomerular apparatus of three Bufo species

Summary The cellular localization of renin was examined in the kidneys of some amphibians of the genus Bufo by immunoperoxidase and immunofluorescence techniques with an antiserum to renin isolated from the submandibular gland of the mouse. Immunoreactivity could be demonstrated in the media cells of the afferent arterioles (juxtaglomerular cells) close to as well as at great distance from the glomeruli. Occasionally, media cells of larger arterial vessels were also stained. The immunohistochemical data seem to be in accordance with earlier results obtained with a modified silver impregnation technique (Movat's staining procedure) used for the visualization of juxtaglomerular cells in non-mammalian vertebrates. Mouse kidney tissue, studied for purposes of comparison, showed renin-immunoreactivity as described by earlier investigators, i.e., immunoreactive staining in the afferent arterioles near the glomeruli and in the proximal tubule cells.     

An histological and immunocytochemical study of the neuroendocrine cells in the intestine of Podarcis hispanica Steindachner, 1870 (Lacertidae)

Summary Numerous endocrine cells can be observed in the gut of the lizard Podarcis hispanica after application of the Grimelius silver nitrate technique. The argyrophilic endocrine cells are usually tall and thin in the small intestine but short, basal, and round in the large intestine. Eleven types of immunoreactive endocrine cells have been identified by immunocytochemical methods. Numerous serotonin-, caerulein/gastrin/cholecystokinin octapeptide-and peptide tyrosine-tyrosine-immunoreactive cells; a moderate number of pancreatic polypeptide-, neurotensin-, somatostatin-, glucagon-like peptide-1-and glucagon-immunoreactive cells, and few cholecystokinin N-terminal-and bombesin-immunoreactive cells were found in the epithelium of the small intestine. Coexistence of glucagon with GLP-1 or PP/PYY has been observed in some cells. In the large intestine a small number of serotonin-, peptide tyrosine-tyrosine-, pancreatic polypeptide-, neurotensin-, somatostatin-and glucagon-like peptide-1-immunoreactive cells were detected. Vasoactive intestinal peptide immunoreactivity was found in nerve fibers of the muscular layer. Substance P-immunoreactive nerve fibers were detected in lamina propria, submucosa and muscular layer. Chromogranin A-immunoreactive cells were observed throughout the intestine, although in lower numbers than argyrophilic cells.