OBJECTIVETo study the regulative action of mica monomer powder preparation on the chief and parietal cells as well as G and D cells in the gastric mucosa of the experimental atrophic gastritis (CAG) rats.

METHODSIntervention therapy was given to the experimental CAG rats at three different doses of mica monomer powder preparation to evaluate the changes of chief and parietal cells as well as G and D cells in the gastric mucosa and the histopathological changes of gastric mucosa.

RESULTSMica monomer powder preparation at three different doses could increase the amount of chief and parietal cells as well as G and D cells in gastric mucosa of the experimental CAG rats and alleviate and control the inflammation of gastric mucosa and the atrophy of gastric mucosa glands. Especially, better effects were shown in the mid and high dose groups.

CONCLUSIONMica has the pharmacological action of protecting the gastric mucosa, enhancing blood flow of the gastric mucosa, and consequently improving the inflammatory responses of the gastric mucosa. One of the mechanisms is associated with promoting the secretion of gastric acid and gastric pepsin and regulating the neuroendocrine mechanism including gut hormone secretion (gastrin and somatostatin) by increasing the number of chief and parietal cells as well as G and D cells.

Aluminum Silicates ; pharmacology ; Animals ; Cell Count ; Chief Cells, Gastric ; drug effects ; pathology ; Chronic Disease ; Gastric Mucosa ; drug effects ; pathology ; Gastrin-Secreting Cells ; drug effects ; pathology ; Gastritis, Atrophic ; pathology ; Inflammation ; Parietal Cells, Gastric ; drug effects ; pathology ; Powders ; Rats ; Rats, Sprague-Dawley ; Somatostatin-Secreting Cells ; drug effects ; pathology

OBJECTIVETo study regulative action of mica monomer granule preparation on gastrin (GAS), somatostatin (SS) and G cells as well as D cells of gastric mucosa in experimental chronic atrophic gastritis (CAG) rat.

METHODCAG rats were treated with mica monomer granule preparation with three different dosages--high, moderate and low level respectively. Changes of blood serum GAS, blood plasma SS and G cells as well as D cells of gastric mucosa in CAG rats were observed and detected with ELISA method, RIA method and immunocytochemistry method.

RESULTMica monomer granule of three different dosages could increase the quantity of G cells as well as D cells of gastric mucosa and the concentration of blood serum GAS and decrease the content of blood plasma SS in CAG rat at different level respectively. It was more effective in high and moderate dosage groups.

CONCLUSIONMica has the pharmacological action of protecting gastric mucosa, promoting the palingenesis of gastric gland and enhancing blood stream of gastric mucosa consequently to abate the inflammation reaction of gastric mucosa. Its effective mechanism is associated with the neuroendocrine regulative mechanism of promoting the secretion of gastric acid and gastric pepsin by increasing the amount of G cells as well as D cells and the concentration of blood serum GAS, and reducing inhibiting action on GAS secretion and enhancing the secretion of GAS by decreasing the content of SS.

Aluminum Silicates ; administration & dosage ; pharmacology ; Animals ; Dose-Response Relationship, Drug ; Gastric Mucosa ; pathology ; Gastrin-Secreting Cells ; drug effects ; Gastrins ; blood ; Gastritis, Atrophic ; blood ; pathology ; Materia Medica ; administration & dosage ; pharmacology ; Rats ; Rats, Sprague-Dawley ; Somatostatin ; blood ; Somatostatin-Secreting Cells ; drug effects

BACKGROUND: CD99 is characteristically expressed in Ewing's sarcoma/primitive neuroendocrine tumors and its immunoreactivity has also been reported in gastrointestinal neuroendocrine tumors. However, the normal distribution of CD99 reactive cells in gastrointestinal mucosa and their function are not fully understood. METHODS: We performed an immunohistochemical study using antibodies to CD99 and gastrin on formalin fixed and paraffin embedded tissue of the stomach. RESULTS: CD99 were strongly expressed in the gastric glands of neonate (3/3) and infant (1/1) cases but not detected in the fetal period (0/30). In adults, CD99 was observed in 36.8% (7/19). The number of CD99 positive cells were fewer in adult (3.48+/-6.43) than in neonate (5.66+/-0.58) and infant (11.33+/-2.21). CD99 was mostly located along the cytoplasmic membrane of glandular cells but cytoplasmic expression was also evident in neonate and infant cases. The G cells and CD99 expressed cells were reduced in the area showing intestinal metaplasia and atrophic change. As a result of the double stain, some of the G cells coexpress CD99 antigen, which were more in neonate (29%) than in adult (2.6%). CONCLUSIONS: The CD99 positive cells were found in the gastric pyloric antrum during the postnatal period and progressively reduced with age. This suggests the participation of CD99 protein in the differentiation and secretory process of neuroendocrine cells.
Adult ; Antibodies ; Cell Membrane ; Cytoplasm ; Formaldehyde ; Gastric Mucosa* ; Gastrin-Secreting Cells ; Gastrins ; Humans* ; Infant ; Infant, Newborn ; Metaplasia ; Mucous Membrane ; Neuroendocrine Cells ; Neuroendocrine Tumors ; Paraffin ; Pyloric Antrum ; Secretory Pathway ; Stomach

A major advance in the understanding of the regulation of food intake has been the discovery of the adipokine leptin a hormone secreted by the adipose tissue. After crossing the blood-brain barrier, leptin reaches its main site of action at the level of the hypothalamic cells where it plays fundamental roles in the control of appetite and in the regulation of energy expenditure. At first considered as a hormone specific to the white adipose tissue, it was rapidly found to be expressed by other tissues. Among these, the gastric mucosa has been demonstrated to secrete large amounts of leptin. Secretion of leptin by the gastric chief cells was found to be an exocrine secretion. Leptin is secreted towards the gastric lumen into the gastric juice. We found that while secretion of leptin by the white adipose tissue is constitutive, secretion by the gastric cells is a regulated one responding very rapidly to secretory stimuli such as food intake. Exocrine-secreted leptin survives the hydrolytic conditions of the gastric juice by forming a complex with its soluble receptor. This soluble receptor is synthesized by the gastric cells and the leptin-leptin receptor complex gets formed at the level of the gastric chief cell secretory granules before being released into the gastric lumen. The leptin-leptin receptor upon resisting the hydrolytic conditions of the gastric juice is channelled, to the duodenum. Transmembrane leptin receptors expressed at the luminal membrane of the duodenal enterocytes interact with the luminal leptin. Leptin is actively transcytosed by the duodenal enterocytes. From the apical membrane it is transferred to the Golgi apparatus where it binds again its soluble receptor. The newly formed leptin-leptin receptor complex is then secreted baso-laterally into the intestinal mucosa to reach the blood capillaries and circulation thus reaching the hypothalamus where its action regulates food intake. Exocrine-secreted gastric leptin participates in the short term regulation of food intake independently from that secreted by the adipose tissue. Adipose tissue leptin on the other hand, regulates in the long term energy storage. Both tissues work in tandem to ensure management of food intake and energy expenditure.
Adipokines ; Adipose Tissue ; Adipose Tissue, White ; Appetite ; Blood-Brain Barrier ; Capillaries ; Chief Cells, Gastric ; Dietary Sucrose ; Duodenum ; Eating ; Energy Metabolism ; Enterocytes ; Gastric Juice ; Gastric Mucosa ; Golgi Apparatus ; Hand ; Hypothalamus ; Intestinal Mucosa ; Leptin ; Membranes ; Phenobarbital ; Receptors, Leptin ; Secretory Vesicles

BACKGROUND AND OBJECTIVES: The purpose of this study was to evaluate the effect of intranasal Mometasone furoate instillation into the nasal cavity of mice which had peripherally induced anosmia. SUBJECTS AND METHOD: Three groups of mice were studied: normal control group (nasal instillation of normal saline, n=6), Mometasone furoate non-instillation group (no treatment after nasal instillation of zinc sulfate, n=12), and Mometasone furoate instillation group (daily mometasone furoate instillation after nasal instillation of zinc sulfate, n=12). Tissues of olfactory mucosa were obtained on 1, 2, 3, 4 weeks after the instillation of zinc sulfate, and processed for immunohistochemistry using antisera to olfactory marker protein (OMP) for evaluation of olfactory regeneration. RESULTS: No OMP-positive cells were observed in the first week after the instillation of zinc sulfate in both groups. However, OMP-positive cells began appearing in the second week in both groups and gradually increased as time goes by. In the Mometasone furoate instillation group, the increase of OMP-positive cells was significantly greater than that of Mometasone furoate non-instillation group. CONCLUSION: Mometasone furoate instillation enhances regeneration of olfactory receptor cells after injury. Mometasone furoate instillation can be suggested as an effective treatment modality for olfactory dysfunction.
Animals ; Immune Sera ; Immunohistochemistry ; Mice* ; Nasal Cavity ; Olfaction Disorders ; Olfactory Marker Protein ; Olfactory Mucosa ; Olfactory Receptor Neurons ; Regeneration ; Smell ; Zinc Sulfate ; Mometasone Furoate

Heterotopic gastrointestinal cysts are rarely found in the oral cavity. Most of these cysts are lined with gastric mucosa and involve the tongue. There have been no reported heterotopic intestinal cysts of the submandibular gland that are completely lined with colonic mucosa. An 8-year-old girl presented with an enlarging swelling in the left submandibular area, and a 4-cm unilocular cyst was fully excised. The cyst was completely lined with colonic mucosa that was surrounded by smooth muscle layer, and the lining cells were positive for CDX-2, an intestinal marker, indicating a high degree of differentiation. The pathogenesis remains unclear, but it may be related to the misplacement of embryonic rests within the oral cavity during early fetal development. Although heterotopic intestinal cysts rarely occur in the submandibular gland, they should be considered in the differential diagnosis of facial swellings in the pediatric population.
Colon ; Diagnosis, Differential ; Fetal Development ; Gastric Mucosa ; Intestines ; Mouth ; Mucous Membrane ; Muscle, Smooth ; Submandibular Gland ; Tongue

Heterotopia refers to the finding of normal tissue in foreign sites, entirely separate from the main organ. Heterotopic gastric mucosa has been observed throughout the alimentary tract, everywhere from the oral cavity to the rectum. However, occurrences in the umbilicus are an extremely rare and peculiar phenomena. We report the case of heterotopic gastric mucosa in the umbilicus.
Gastric Mucosa ; Mouth ; Rectum ; Umbilicus

An umbilical polyp is a rare congenital lesion and it represents one of the developmental anomalies of omphalomesenteric duct remnants. Clinically, an umbilical polyp presents as a red, firm and round tumor with mucoid and sometimes bloody secretions. Umbilical polyps can be mistaken clinically for other umbilical disorders such as umbilical granulomas and granuloma pyogenicum. Hisopathologically, the umbilical polyp is usually composed of small intestinal mucosa or ectopic gastrointestinal mucosa. Herein, we report on two cases of umbilical polyps:one umbilical polyp was composed of small intestinal mucosa and the other consisted of gastric mucosa.
Gastric Mucosa ; Granuloma ; Granuloma, Pyogenic ; Intestinal Mucosa ; Mucous Membrane ; Polyps ; Vitelline Duct

The purpose of this study was to examine the ultrastructural characteristic of the normal pylorus mucosa, and their structural changes induced by the ligation of common bile duct of the male rabbits weighing about 1.5 kg each. Experiment animals were divided into normal, sham operation, and experimental groups. Common bile duct ligation was performed under ether anesthesia and anjmals were sacrificed on the 1st, 3rd, 5th, 7th and 14th day after operation. The mucosal specimen of the pylorus, were fixed and embedded with common method. The sections were cut on a LKB-V ultratome, and observed under a JEM 100CX II electron microscope. The results were as follow : 1. In the early stages (1st, 3rd, 5th day groups) following the ligation, surface mucous cells have the various electron densities and shape of the mucous granules. In the late stages (7th, 14th day groups) following the ligation, many surface mucose cells containing numerous electron dense mucous granules are seen. 2. In the early stage of the ligation of bile duct, secretory function of EC cells was depressed, but in the later stage, the cells showed recovered secretory activity. 3. Secretory function of D cells was depressed on the early groups after the ligation of common bile duct, but they showed recovered secretory activity from the late groups after the ligation of the common bile duct. 4. Secretory function of G cells was activated on the early groups after the ligation of common bile duct, but they showed depressed secretory activity from the late groups after the ligation of the common bile duct. Considering the above findings, common bile duct ligation probably causes the dysfunction of the pyloric surface mucous cells that results in delayed mucous formation and secretion, and recovered mucous secretory function on the late stages. EC cells and G cells, depressed the secretory activities on the early stages and recovered on the late stages of the ligation of common bile duct. But D cells in the pyloric mucosa was activated on the early groups after the ligation of common bile duct ligation, but they was depressed secretory activities on the late groups.
Anesthesia ; Animals ; Bile Ducts ; Common Bile Duct* ; Ether ; Gastrin-Secreting Cells ; Humans ; Ligation* ; Male ; Mucous Membrane* ; Pylorus ; Rabbits ; Somatostatin-Secreting Cells

Over the last decades, piles of data have been accumulated to understand the olfactory sensation in every aspect, ranging from the intracellular signaling to cognitive perception. This review focuses on the ion conduction through multiple ion channels expressed in olfactory sensory neurons (OSNs) to describe how odorant binding to olfactory receptors is transduced into an electrical signal. Olfactory signal transduction and the generation of the depolarizing receptor current occur in the cilia, where the unique extraciliary environment of the nasal mucosa assists in the neuronal activation. Upon contacting with odorants, OSNs dissociate G protein-coupled receptors, initiating a signal transduction pathway that leads to firing of action potential. This signaling pathway has a unique, two step organization: a cAMP-gated Ca2+ (CNG) channel and a Ca2+-activated Cl- channel (CACC), both of which contribute to signal amplification. This transduction mechanism requires an outward-directed driving force of Cl- established by active accumulation of Cl- within the lumen of the sensory cilia. To permit Cl- accumulation, OSNs avoid the expression of the 'Chloride Sensor: WNK3', that functions as the main Cl- exclusion co-transporter in neurons of the central nervous system (CNS). Cl- accumulation provides OSNs with the driving force for the depolarization, increasing the excitatory response magnitude. This is an interesting adaptation because of the fact that the olfactory cilia reside in the mucus, outside the body, where the concentrations of ions are not as well regulated as they are in normal interstitial compartments.
Action Potentials ; Central Nervous System ; Cilia ; Fires ; Ion Channels ; Ions ; Mucus ; Nasal Mucosa ; Neurons ; Odors ; Olfactory Receptor Neurons ; Sensation ; Sensory Receptor Cells* ; Signal Transduction ; Smell