Somatostatin cells in the gastric mucosa of small ruminants. Immunohistochemical study

The distribution of somatostatin cells was investigated immunohistochemically in the epithelium of the abomasal mucous membrane of sheep and goats. Tissue samples were taken from different areas at the lesser and greater curvature of the glandular stomach. More somatostatin cells per 0.5 mm2 were found in sheep than in goats, predominantly in the pyloric gland region. In the pyloric area of both species the mucosa in the greater curvature contained more immunoreactive cells than the one in the lesser curvature. A few somatostatin cells with basal cytoplasmic processes of the 'open type' were observed over the entire abomasal mucosa.     

'Pear-shaped' cells in the digestive tract of the perch Perca fluviatilis (L.)

Light and electron microscopy revealed the presence of 'pear-shaped' cells amongst the mucosal cells of the stomach, pyloric curvature, pyloric caeca and the anterior-most region of the intestines of perch. The cells are usually located in the distal region of the mucosa and are approximately half the height of the other mucosal cells. Electron microscopy shows that the cells are composed of thick outer sheaths which are fibrillar in appearance. The cytoplasm is characterized by electron dense rods numbering from three to fifteen, which originate from the supranuclear region of the cells and converge apically. The rest of the cytoplasm is composed of Golgi apparatus, secretory vacuoles, minute mitochondria and a network of cytoplasmic strands laden with ribosomes. The organization of organelles in these cells does not resemble that of other mucosal cells of the alimentary canal. Contrary to what has been suggested previously, the 'pear-shaped' cells neither resemble nor represent stages in the formation and maturation of goblet cells.     

'Pear-shaped' cells in the digestive tract of the perch Percafluviatilis (L.)

Light and electron microscopy revealed the presence of 'pear-shaped' cells amongst the mucosal cells of the stomach, pyloric curvature, pyloric caeca and the anterior-most region of the intestines of perch. The cells are usually located in the distal region of the mucosa and are approximately half the height of the other mucosal cells. Electron microscopy shows that the cells are composed of thick outer sheaths which are fibrillar in appearance. The cytoplasm is characterized by electron dense rods numbering from three to fifteen, which originate from the supranuclear region of the cells and converge apically. The rest of the cytoplasm is composed of Golgi apparatus, secretory vacuoles, minute mitochondria and a network of cytoplasmic strands laden with ribosomes. The organization of organelles in these cells does not resemble that of other mucosal cells of the alimentary canal. Contrary to what has been suggested previously, the 'pear-shaped' cells neither resemble nor represent stages in the formation and maturation of goblet cells.     

The distribution and ontogeny of gastrin/CCK-, somatostatin- and neurotensin-immunoreactive cells in the gastrointestinal tract of the chicken

The distribution and time of appearance of cells with gastrin/CCK-, neurotensin- and somatostatin-like immunoreactivity were studied in samples from eight regions of the gastrointestinal tract of chick embryos from 11 days of incubation to hatching. No immunoreactive cells were found in any region at 11 days of incubation. Somatostatin- and neurotensin-immunoreactive cells appeared for the first time in the proventriculus, pyloric region and duodenum at 12 days of incubation with cells immunoreactive for neurotensin occurring in the rectum at the same stage. Gastrin/CCK-immunoreactive cells were detected in the small intestine first at 14 days and in the pyloric region two days later. Cells immunoreactive for somatostatin and neurotensin appeared in the upper and lower ileum at 14 days of incubation for the first time; neurotensin-immunoreactive cells, present in the caecum at 14 and 16 days, were rare. Cells of all three types were plentiful in the pyloric region by 17 1/2 days of incubation. No immunoreactive cells were detected in the gizzard at any stage studied. Endocrine cells were present in the relatively undifferentiated surface epithelium which occurs throughout the gastrointestinal tract of chick embryos at 12 days of incubation. Thereafter cells of all three types were detected in the glandular epithelium at or very soon after morphogenesis and differentiation of the latter had occurred.     

Tritiated thymidine autoradiographic study of cell migration and renewal in the pyloric mucosa of golden hamsters

Summary The kinetics of cell proliferation, migration and renewal in the pyloric mucosa of golden hamsters were studied by flash, cumulative and pulse labelling autoradiography following ³H-thymidine injections.By flash labelling autoradiography, it was shown that the labelled epithelial cells are exclusively confined to a zone several cells wide in the region of the isthmus between the gastric pits and the pyloric glands. In the cumulative and pulse labelling experiments, this cell proliferation in the isthmus region was shown to be for replacement of both the surface epithelial and the glandular cells. The surface epithelial cells of the pyloric mucosa arising in the upper portion of the isthmus come to line the pits and the surface, and are sloughed off into the gastric lumen within a week. The mucin-containing glandular cells, which arise more deeply in the isthmus region, migrate downwards and are apparently lost at the deepest level of the glands. The life span of the mucin-containing glandular cells was estimated at about 14 days. This cell type appears to undergo renewal of the first produced, first lost pipe line variety. However, a small number of glandular cells was found to survive for more than 20 days (up to 30 days), suggesting the existence of a sub-population of cells with different kinetics in the pyloric glands.Supported by a Grant-in-Aid for Cancer Research from Ministry of Education, Science and Culture, Japan     

Fine structure of the pyloric region and Malpighian papillae of protura (Insecta Apterygota)

The pyloric region of Eosentomon and Acerentomon (Insecta, Protura) is described. In both species the posterior cells of the midgut carry short microvilli. Beneath the epithelial cells there is a muscular pyloric sphincter for closing the intestinal lumen. Behind the sphincter is a wide pyloric chamber lined by cells with very long microvilli which point anteriorly toward the midgut. These cells regulate the passage of the intestinal contents into the hindgut. Secretions from the Malpighian papillae are emitted into the gut at this level. In Eosentomon three regions (R₁, R₂ and R₃) are visible in the Malpighian papillae, whereas in Acerentomon region R₁ is lacking. The R₁ region contains secretory cells with elaborate glycoprotein-containing granules. The R₂ region is composed of cells somewhat resembling the secretory cells of Malpighian tubules of insects. Presumably R₁ and R₂ cells emit secretions into the central cavity of each papilla. Cells of R₃ form a duct for the secretion. It is suggested that the R₂ region represents a basic excretory region, common to Protura, whereas the R₁ region, in Eosentomon, may be a specialized area performing supplementary excretory functions.     

A study of the anatomy, histology and ultrastructure of the digestive tract of Orthrias angorae Steindachner, 1897

The anatomy, histology and ultrastructure of the digestive tract of Orthrias angorae (Steindachner, 1897) were investigated using light microscopy, scanning electron microscopy (SEM) and transmission electron microscopy (TEM). The histological structure consists of four layers: mucosa, submucosa, muscularis and serosa. The esophageal mucosa consists of undifferentiated basal epithelial cells, mucous cells and surface epithelial cells. It was observed that the J-shaped stomach had a meshwork of folds in the cardiac region, and longitudinal folds in the fundic and pyloric regions. A single layer of columnar cells, PAS positive only in their apical portions, forms the epithelium. The convoluted tube-shape intestine is lined by simple columnar epithelial cells, which have microvilli at the apical surface. The wall of the esophagus and stomach are thicker than that of the intestine because of the thick muscle layer. There were numerous goblet cells in the intestine. There were numerous gastric glands in the submucosa layer ofthe cardiac stomach, but none were present in the pyloric region of the stomach. There were no pyloric caeca between the stomach and intestine. The enterocytes with microvilli contained rough endoplasmic reticulum, ribosomes and rounded bodies, and the gastric cells contained a well-developed Golgi apparatus.     

Fine structure of the pyloric region and hindgut of Tetrodontophora bielanensis (Waga) (Collembola)

The pyloric region in the alimentary tract of Tetrodontophora bielanensis consists of three parts, of which the first (P1) belongs to the midgut and the others (P2, P3) to the hindgut. Behind the pyloric region in the hindgut, sphincter (S), rectum (R1, R2) and rectal ampulla (AR) follow. Morphologically, the cells of part P1 differ in structure from the midgut epithelial cells described by Kazysztofowicz et al. [11], both by presence of microtubular bodies in an apical region and by the lack of the mitochondrial region. The cytoplasm of the cells of part P3 is filled with lysosome-like bodies with an unknown function. The authors suggest that they are connected with a secretion of the pheromons. The structure of rectum epithelial cells is typical of insects.     

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。     

Pyloric gastrin-producing cells and pyloric sphincter muscle cells are nuclear targets for 3H 1,25(OH)2 vitamin D3. Studied by autoradiography and immunohistochemistry

Autoradiographic studies were conducted to identify and characterize target cells for 1,25(OH)2 vitamin D3 in the pyloric region of rats and mice. After injection of 3H 1,25(OH)2 vitamin D3, nuclear concentration of radioactivity was observed in nuclei of duodenal epithelium and certain cells of pyloric glands, while most of the epithelial cells in the pyloric and gastric glands did not show nuclear labeling. In combined immunohistochemical studies, cells in the pyloric glands that showed nuclear concentration of radioactivity, were stained in their cytoplasm with antibodies to gastrin. Also, cells of the pyloric sphincter muscle showed nuclear labeling, in contrast to cells of the duodenal muscularis, which remained unlabeled under the conditions of the experiments. The results indicate that the cells with nuclear radioactivity contain receptors for 1,25(OH)2 vitamin D3 and suggest that gastrin secretion and pyloric muscle functions are regulated by a direct action of 1,25(OH)2 vitamin D3 on these cells.     

Morphological characterisation of the digestive tract of the catfish Lophiosilurus alexandri Steindachner, 1876 (Siluriformes,Pseudopimelodidae)

The anatomical arrangement of the digestive tract and the length (cm) of the oesophagus and intestine of the catfish Lophiosilurus alexandri were described, and the intestinal coefficient was determined. L. alexandri oesophagus is short, in median position, and presents longitudinally folded mucosa, whilst its epithelium is stratified and non-keratinised, with mucous, claviform and epithelial cells. Stomach has “C” shape, with folded mucosa along cardiac region, disordered in the fundic region, and directed to the sphincter in the pyloric region. Its epithelium is simple prismatic, and cardiac and fundic portions have gastric glands. Cranial intestine is formed by pyloric flexure and descending loop attached to the right side of stomach. Middle intestine is winding and positioned to the right of caudal portion of stomach. Caudal intestine is linear and with a median position up to the anus. Intestinal coefficient was 1.39 ± 0.30 cm. Epithelium is simple prismatic with brush border and contains epithelial and goblet cells. Caudal region has highest concentration of goblet cells. Were detected neutral glycoproteins, carboxylated and sulphated acid glycoconjugates for mucous cells and goblet cells, and neutral glycoproteins for the apical region of gastric epithelial cells. Morphological features could be related to piscivorous species feeding habit.     

Retrograde peristalsis; a possible mechanism for filling the pyloric caeca?

A marked, relatively rapid retrograde peristaltic activity was observed in the pyloric region of Atlantic halibut Hippoglossus hippoglossus in vitro and in vivo. This could provide a mechanism for filling the pyloric caeca, and the retrograde contraction could also be involved in mixing the chyme with digestive secretions in the region of the pyloric caeca.     

A study of the histology and morphology of the digestive tract of the common eel (Anguilla anguilla)

The anatomy and morphology of the digestive tract of the eel was examined using light and scanning electron microscopy. The oeosphagus showed complex longitudinal folding; stratified epithelium, columnar epithelium and goblet cells striated muscle fibres formed the thick muscular coat. The pneumatic duct entered the oesophagus anterior to the oesophagastric junction. The Y shaped stomach showed large well developed folds which decreased in size and number towards the pyloric sphincter. Columnar epithelium and gastric gland cells were present, the latter being absent from the pyloric region.
The intestine had a heavily thickened anterior region, signs of convulation were noted prior to the ileorectal valve. Intestinal folding showed a complex reticulate pattern with columnar epithelium and goblet cells present. The mucopolysaccharides were studied in the goblet and columnar cells throughout the regions of the gut. Lymphocytes and eosinophilic type cells were found in the connective tissue of the mucosa throughout the gut. The pancreas was a compact organ with few Islets of Langerhans, beta cells were peripherally situated and alpha cells centrally. The unilobular liver acted as a storage organ for oil and glycogen.     

Fine Structure of the Midgut and Hindgut in Lepidocampa weberi (Insecta,Diplura)

The fine structure of the alimentary canal, especially the midgut and hindgut of Lepidocampa weberi (Diplura: Campodeidae) is described. The general organization of the canal is similar to that of Campodea. The midgut epithelium is composed of columnar apical microvillated cells. Each nucleus contains a single intranuclear crystal. Close to the pyloric region, the posterior midgut cells are devoid of microvilli and intranuclear crystals. There is no special pyloric chamber as in Protura or pyloric cuticular ring as in Collembola but a morphological transformation from midgut to hindgut cells. Eight globular Malpighian papillae, consisting of distal microvillated cells and flat proximal cells, open into the gut lumen via ducts formed by hindgut cells. The structure of the hindgut is complicated and can be divided into three segments. The anterior hindgut cells have an irregular shape and compact cytoplasm. A striking interdigitation between the large bottle-shaped epithelial cells and longitudinal muscle cells occurs in the middle segment of the hindgut. The thick cuticle gives rise to long spikes projecting into the gut lumen. The posterior hindgut cells possess the morphological features for water reabsorption. Some hypotheses are advanced about the function of the different regions of the gut.     

Tritiated thymidine autoradiographic study on the origin and renewal of argentaffin cells in the pyloric gland of hamsters

Summary The origin and renewal of the argentaffin cells in the pyloric glands of hamsters were studied by flash, cumulative and pulse labelling autoradiography with ³H-thymidine. The argentaffin cells were identified by the Diazo Method using Fast Red B Salt.By flash labelling autoradiography, it was shown that the argentaffin cells located from the middle to the lower level of the pyloric mucosa were not labelled with ³H-thymidine, indicating that this cell type has no proliferative activity. On the 10th and the 20th day of cumulative labelling, 31% and 63% of the argentaffin cells in the gland were found to be labelled, respectively. The labelled argentaffin cells were concentrated in the upper part of the gland (around the region of the isthmus), and no label was found over nuclei of the cells at the lowermost level of the gland. These labelled cells were shown to undergo a downward migration in the days following pulse labelling. They were replaced by unlabelled (and weakly or very weakly labelled) cells which arose at the region of the isthmus. The argentaffin cells in the pyloric gland are thought to arise from epithelial precursor cells at the region of the isthmus.The labelled argentaffin cells in the gland were found to decrease in number almost exponentially after pulse labelling. This indicates that the life span of argentaffin cells is not fixed, but their renewal conforms to the random loss system. The half time of turnover of this cell population was 15 days on average.Supported by a Grant-in-Aid for Cancer Research from the Ministry of Education, Science and Culture, Japan     

Stereologic evaluation of the pig gastric wall and of somatostatinergic and serotoninergic immunoreactive mucosal cells during perinatal development.

A quantitative morphological study using stereologic methods was performed on vertical paraffin sections of the stomach of fetal and neonatal pigs. The sections were processed for 5-HT- and SOM-immunohistochemistry. In the neonatal pigs, the volume density of the submucosal layer in the pyloric gland region was approximately 15% less compared to the cardiac gland region. This suggests that altered functional demands after birth are temporarily related to and perhaps could promote the morphological diversification between the gastric regions. The distribution of 5-HT-IR and SOM-IR mucosal cells corresponds with previous observations in the adult mammalian stomach. However, based upon our results an age-dependent maturity or even different role is suspected for 5-HT and SOM. This is substantiated by the 4-fold rise of the volume occupied by 5-HT-IR mucosal cells in the pyloric gland region during development. Secondly, the regional differences of the volume density of SOM-IR mucosal cells vary according to developmental stage. The developmental variations of 5-HT- and SOM-IR mucosal cells contrast with findings in the rodent stomach. However, they are comparable to observations in man.     

Vasoactive intestinal polypeptide (VIP) immunoreactivity of endocrine-like cells in the feline pyloric mucosa

Summary Immunoreactivity to VIP by endocrine-like cells in the feline pyloric mucosa was examined by using three kinds of region-specific anti-porcine VIP sera. VIP-immunoreactive endocrine-like cells were detected clearly with all of the VIP antisera used. They were located mainly around the neck of the pyloric glands. Some of these endocrine-like cells showed dilution-dependent immunoreactivity against VIP antisera. The immunostaining intensity of VIP-immunoreactive endocrine-like cells showing dilution-independence could not be distinguished from those of nerve elements. The present results suggest that the immunoreactivity with properties very similar to those of authentic VIP may be present in the endocrine-like cells of the feline pyloric glands.     

Pyloric gastrin-producing cells and pyloric sphincter muscle cells are nuclear targets for 3H 1,25(OH)2 vitamin D3

Summary Autoradiographic studies were conducted to identify and characterize target cells for 1,25(OH)₂ vitamin D₃ in the pyloric region of rats and mice. After injection of ³H 1,25(OH)₂ vitamin D₃, nuclear concentration of radioactivity was observed in nuclei of duodenal epithelium and certain cells of pyloric glands, while most of the epithelial cells in the pyloric and gastric glands did not show nuclear labeling. In combined immunohistochemical studies, cells in the pyloric glands that showed nuclear concentration of radioactivity, were stained in their cytoplasm with antibodies to gastrin. Also, cells of the pyloric sphincter muscle showed nuclear labeling, in contrast to cells of the duodenal muscularis, which remained unlabeled under the conditions of the experiments. The results indicate that the cells with nuclear radioactivity contain receptors for 1,25(OH)₂ vitamin D₃ and suggest that gastrin secretion and pyloric muscle functions are regulated by a direct action of 1,25(OH)₂ vitamin D₃ on these cells.     

Observations on the anatomy of the stomach and duodenum of the bowhead whale, Balaena mysticetus

Gastric and cranial duodenal structure of the bowhead whale (Balaena mysticetus) was examined grossly and microscopically. The stomach was arranged in a series of four compartments. The first chamber, or forestomach, was a large nonglandular sac lined by a keratinized stratified squamous epithelium. It was followed by the fundic chamber, a large, somewhat globular and entirely glandular compartment. At the entrance of the fundic chamber, a narrow cardiac gland region could be defined. The remaining mucosa of the chamber contained the proper gastric glands. A narrow, tubular connecting channel, the third distinct gastric division, was lined by mucous glands and joined the fundic chamber with the final stomach compartment, or pyloric chamber. This fourth chamber was also tubular and lined by mucous glands but was of a diameter considerably larger than the connecting channel. The stomach terminated at the pyloric sphincter which consisted of a well-developed band of circular smooth-muscle bundles effecting a division between the pyloric chamber and small intestine. The small intestine began with the duodenal ampulla, a dilated sac considerably smaller than the fundic chamber of the stomach. The mucosa of this sac contained mucous glands throughout. The ampulla led without a separating sphincter into the duodenum proper which continued the intestine in a much more narrow tubular fashion. The mucosal lining of the duodenum was composed of villi and intestinal crypts. Although their occurrence varied among whales, enteroendocrine cells were identified within the mucous glands of the cardiac region, connecting channel, pyloric chamber, and cranial duodenum. The hepatopancreatic duct entered the wall of the duodenum shortly after the termination of the duodenal ampulla and continued intramurally along the intestine before finally joining the duodenal lumen.     

The oesophagus and stomach of dolphins (Tursiops, Delphinus, Stenella)

The morphology of the oesophagus and stomach has been studied in several species of Tursiops, Delphinus and Stenella and correlated with the histological and ultrastructural characteristics of each region. The oesophagus opens into a saccular forestomach, lined by stratified squamous epithelium. A narrow opening leads into a globular main stomach with a plicated glandular mucous membrane possessing mucous, parietal and chief cells. The main stomach communicates with pyloric stomach by a narrow connecting channel possessing sphincteric constrictions. Variations in the connecting channel have been found in the species examined. The mucosae of the channel and the pyloric stomach are similar and contain typical pyloric glands. Argentaffin cells are present. The cytological and other characteristics of the component chambers have been interpreted in relation to feeding habits and digestion in dolphins.