Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01350 (gastrin)
 9,683 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

After a review on the historical development of morphological investigations of entero-endocrine cells, dating back to 1870, a detailed synoptical review of the current stage of findings in this field is given. At the present time nine different endocrine cell types can be distinguished in the epithelium of the gastrointestinal tract. Criteria for this differentiation are properties concerning specific staining methods, aldehyde-induced fluorescence, immunohistochemistry, and ultrastructure. From present results it is obvious that distinct cell types are responsible for the synthesis of defined polypeptide hormones (e.g. gastrin, secretin, enterogastrone). The metabolism of amines, in relation to the endocrine cells of the gastrointestinal tract is of particular interest here. Points investigated include the uniqueness of endocrine cells, with regard to the metabolism of biogenic amines ("APUD-cells") and the possibility of serotonin synthesis by a definite cell type, i.e. by the EC-cell ("enterochromaffin" cell). In our experimental animal, male Wistarrats, seven different entero-endocrine cell types can be discerned by ultrastructural means: EC-, ECL-, G-, AL-, EG-, D- and D1-cells. The I-cell (found in other species) can hardly be distinguished from the AL-cell by ultrastructural means and the S-cells, as found in other species, are not to be found at all. Only some of the cited cell types can be seen by fluorescence microscopy. After formaldehyde-treatment of the tissue, the "enterochromaffin" cell shows a yellow, serotonin-specific fluorescence. This cell corresponds in shape, number and distribution to the ultrastructurally defined EC-cell. EC-cells are found predominantly in the pyloric region and the duodenum and less frequently in the middle- and hindgut and the cardiac region; seldomly EC-cells are encountered in the oxyntic gland area of the stomach. In the rat gastro-intestinal tract, number and fluorescent intensity of EC-cells does not always correspond with the serotonin content of a certain region--sometimes the level of serotonin is largely determined by the mast cells, which in the rat also contain serotonin. For example, the high serotonin content of the oxyntic gland area, which contains very few EC-cells, has to be contributed nearly exclusively to mast cell serotonin. Mast cells can be domonstrated by fluorescence microscopy, due to their histamine content, after treatment of the tissue with o-phthalaldehyde (OPD). It seems likely that the histamine content, especially that of the so-called "atypical mast cells" of the mucosa, is inversely related to their respective serotonin content. --In addition to mast cells, OPD-treatment leads to a fluorescence in some of the entero-endocrine cells of the gastrointestinal epithelium. In the gastric epithelium these fluorescing cells should be regarded as histamine-containing ECL-cells and glucagon-containing AL-cells while in the colonic epithelium they are considered to be glucagon-containing AL-cells...
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PMID:[The endocrine cells of the gastrointestinal epithelium and the metabolism of biogenic amines in the gastrointestinal tract (author's transl)]. 13 9

Endocrine tumours (argyrophil cell carcinoids) are frequent in the oxyntic mucosa of mastomys. The tumour is notable for its high histamine content and for its high histidine decarboxylase activity. The tumour is thought to arise from the histamine-storing, enterochromaffin-like cells of the oxyntic mucosa. They are of two ultrastructurally distinguishable types, ECL cells and A-like cells, both of which have been demonstrated in the tumour. Identical cells have been demonstrated in the oxyntic mucosa of the rat; there is much evidence that in this species the functional activity and the number of these cells are determined by the serum gastrin concentration. However, tumours have never been found to arise from these cells in the rat. As an initial step in an attempt to explain the formation of the gastric endocrine tumour in the mastomys we examined the distribution and frequency of occurrence of endocrine cells in the mastomys stomach. Gastrin cells in the antrum of mastomys seemed to occur in about the same frequency as in the antrum of rat and mouse. 5-HT-storing enterochromaffin cells, however, were considerably more numerous in the mastomys, whereas the somatostatin cells in the antrum were fewer. The number of enterochromaffin-like cells and somatostratin cells in the oxyntic mucosa of mastomys was much lower than in the rat and mouse. Once developed, the gastric endocrine tumour seems to reduce the antral gastrin cell number; the larger the tumour the greater the reduction.
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PMID:Spontaneous argyrophil cell carcinoid in the glandular stomach: immunohistochemical study of gastric endocrine cells in normal and tumour-bearing mastomys. 38 3

1. Following antrum exclusion the serum gastrin concentration was raised and independent of the prandial state. The antral gastrin concentration and number of gastrin cells were greatly lowered. 2. The histamine content and the number of histamine-storing endocrine ('entero-chromaffin-like') cells in the oxyntic mucosa was almost doubled and the mucosal histidine decarboxylase activity was greatly elevated following antrum exclusion. 3. At the ultrastructural level both types of histamine-storing endocrine cells (ECL and A-like) were found to be enlarged and to have a reduced number of granules per unit cytoplasm. These changes are compatible with an increased secretory activity. The G (gastrin) cells were not increased in size but their granule volume density was lowered. 4. We propose that antrum exclusion results in uninhibited gastrin release causing profound changes in the histamine-storing endocrine cells of the oxyntic mucosa. The cells respond to the hypergastrinemia by an increase in functional activity (activation of histidine decarboxylase and reduction of granule volume density) as well as by an increase in number and size.
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PMID:Effect of antrum exclusion on endocrine cells of rat stomach. 43 21

A patient with atrophic gastritis and excessively raised serum gastrin concentrations (4000 to 5000 pg/ml) was found to have multiple polypous tumors of the gastric corpus mucosa. Following gastrectomy, serum gastrin concentrations decreased to undetectable levels. The tumors consisted of a mixed population of endocrine cells. The majority of tumor cells were of the ECL type, but, in addition, enterochromaffin cells of various subtypes as well as agranular cells were found. The tumors were locally invasive and invaded the walls of submucosal blood vessels. The surrounding mucosa showed a severe atrophic gastritis with intestinalization and contained numerous goblet cells, enterochromaffin cells, and cholecystokinin cells. Cholecystokinin cells do not occur in the normal oxyntic mucosa. Hence, the observation of this cell type in intestinalized gastric epithelium suggests that "intestinalization also is associated with changes in endocrine cell populations. Gastrin has been shown to affect the function of the ECL cells. Indications for a trophic action of gastrin on these cells have been obtained. It is discussed whether greatly raised serum gastrin levels in patients with atrophic gastritis may be associated with increased risks for the development of certain types of gastric tumors.
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PMID:Mixed endocrine gastric tumors associated with hypergastrinemia of antral origin. 69 7

The effect of distension of the stomach by air (in vitro) upon the ultrastructural picture of gastric endocrine cells in rats starved for 72 hours was investigated. Distension of the stomach by air in vitro, lasting for 5, 10, 15 and 20 minutes, resulted in massive dissolution of gastrin granules that had accumulated in the course of starvation. In AL, D1, EC and ECL cells distension of the stomach by air failed to induce dissolution of granular content or release of granules by any other mechanism. In AL and D1 cells accumulation of secretory granules caused by starvation was observed, the ultrastructure of EC and ECL cells remained unchanged both under the effect of starvation and distension. Dilatation of endoplasmic reticulum profiles as well as other changes on some cell organelles observed on endocrine cells after distension of the stomach by air in vitro are due to the effect of autolysis.
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PMID:Experimental ultrastructural study on stimulation of the rat gastric endocrine cells. In vitro distension of the stomach by air inflation. 74 12

1. The argyrophil (enterochromaffin-like) cells in the oxyntic gland area of the rat stomach contain histamine, which can be demonstrated fluorescence microscopically after exposure to gaseous OPT. After administration of L-dopa (or L-5-hydroxytryptophan), these cells produce and temporarily store dopamine (or 5-hydroxytryptamine), demonstrable by its characteristic formaldehyde-induced fluorescence. Ultrastructurally, the enterochromaffin-like cells, which have the appearance of polypeptide hormone-secreting cells, comprise two main cell types, the most predominant one having vesicular type granules (EGL cells), the second most predominant one having smaller, uniformly electron dense granules (A-like cells). 2. Rats were subjected to the following surgical treatments: antrectomy; porta-caval shunting; antrectomy+porta-caval shunting; or sham-operation. Three to eight weeks after surgery the histamine-storing cells (enterochromaffin-like cells) of the oxyntic mucosa were analysed by fluorescence histochemistry, light and (quantitative) electron microscopy, and fluorometric determination of amines. 3. After antrectomy, fluorescence histochemistry and silver staining revealed a reduced number of enterochromaffin-like cells. The histamine content in the oxyntic mucosa was reduced by about 50%. As in unoperated injection of pentagastrin seemed to mobilize histamine. Feeding or injection of insulin failed to do so in antrectomized as opposed to control rats. Ultrastructurally, the cytoplasmic granules of both endocrine-like cell types were less numerous than in the unoperated rats. The reduction in cell number and granularity was particularly conspicuous with regard to the EGL cells. 4. After porta-caval shunting the number of enterochromaffin-like cells increased markedly. Chemical determination revealed a twofold increase in the histamine concentration of the oxyntic mucosa. Feeding or injection of insulin or pentagastrin lowered the histamine concentration. As judged by electron microscopy, the proliferation of endocrine-like cells induced by porta-caval shunting was restricted to the ECL cell type. Besides occurring in greater number, these cells were larger than those in unoperated controls, and their cytoplasm was densely packed with granules that were increased in size. 5. Following antrectomy of the porta-caval shunted rats the number of enterochromaffin-like cells and the oxyntic histamine concentration was reduced. 6. The results support the idea that gastrin exerts trophic as well as excitatory effects on oxyntic endocrine-like cells.
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PMID:Effects of antrectomy or porta-caval shunting on the histamine-storing endocrine-like cells in oxyntic mucosa of rat stomach. A fluorescence histochemical, electron microscopic and chemical study. 95 64

The ultrastructure and certain cytochemical parameters of endocrine cells of the rat gastric mucosa during 168 h of fasting were investigated. To some of the fasting animals peroral food or alcohol was administered before decapitation. The EC (enterochromaffin cells) the ECL (enterochromaffin-like cells), D1 cells, AL (A-like cells) and G cells were identified by means of electron microscopy. Only the EC, ECL, and G cells could be identified by means of light microscopy by an adequate histochemical technique. The ultrastructural picture of the ECL and of the EC cells did not change markedly during the fasting. In the D1 cells there occurred an agglomeration of secretory granules. Some of them disintegrated and disappeared. In the AL cells an agglomeration of granules during the fasting was also observed. Granules engulfed in lysosomes were often found. The participation of lysosomes in the degradation of granules during the fasting was more marked in the AL cells than in the G cells. The participation of lysosomes was questionable in the EC and D1 cells, and in the ECL cells no lysosomes were observed. In contradistinction to the G cells of the non-fasting animals, where more than one half of the gastrin granules were "empty", the G cells during the fasting were filled with agglomerated dense granules and contained lysosomes with fragments of engulfed secretory granules. Following the administration of food (Larsen's diet) 3 h before sacrificing the dissolution of the content of granules with well preserved membranes was observed (emiocytosis did not take place). The administration of food did not lead to changes in the ultrastructural appearance of the EC cells. The peroral administration of alcohol did not lead to any changes in the ultrastructural appearance of the AL and G cells.
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PMID:Influence of fasting and stimulation on the rat gastric endocrine cells. Histochemical and ultrastructural study. 99 72

At present at least seven different endocrine cell types have been identified in the stomach. According to their relative frequency and secretion products the antral gastrin producing G cell and somatostatin producing D cell and the fundic histamine producing ECL cell are the best characterized cell types. Total endocrine cell mass is controlled by various factors from inside and outside the stomach. Density of antral G and D cells depends on the presence and absence of food, on the antral pH and on additional humoral and/or neural factors. Gastrin and not gastric pH has been identified as the most important factor regulating the density of fundic ECL cells. Adaptation of gastric endocrine cells to gastric pH and to the presence, abundance or absence of humoral and neural regulators are well known phenomena though only partially understood. Antral G cells increase and antral D cells decrease during long-term achlorhydria which as a consequence leads to hypergastrinaemia. Examples are pernicious anaemia in man and drug-induced acid suppression under experimental conditions. Interestingly, achlorhydria-induced G cell hyperplasia never progresses to gastrinomas. Fundic ECL cell density increases markedly in the presence of long-lasting hypergastrinaemia independently of gastric pH. In contrast to G cells ECL cell hyperplasia may progress to rarely occurring ECLomas. However, this depends on additional conditioning factors as the presence of severe atrophic gastritis as in pernicious anaemia or a specific genetic trait present in patients with gastrinomas associated with the MEN I syndrome.
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PMID:Adaptation and renewal of the endocrine stomach. 129 54

Gastric acid secretion is regulated by an intricate interplay of neural (acetylcholine), hormonal (gastrin), and paracrine (histamine, somatostatin) mechanisms. Receptors for each of these agents and the signal transduction pathways to which these receptors are coupled have been identified on the parietal cell. The stimulatory effect of acetylcholine and gastrin is mediated by an increase in cytosolic calcium, whereas that of histamine is mediated by activation of adenylate cyclase and generation of cAMP. Strong potentiation between histamine and either gastrin or acetylcholine reflects postreceptor interaction between the distinct pathways as well as the ability of acetylcholine and gastrin to release histamine from mucosal ECL cells. The inhibitory effects of somatostatin on acid secretion are mediated by receptors coupled by guanine nucleotide-binding proteins to inhibition of adenylate cyclase activity. All the pathways converge on and modulate the activity of the luminal enzyme, H+K(+)-ATPase, the proton pump of the parietal cell. Precise information on the mechanisms involved in gastric acid secretion has led to the development of potent drugs capable of inhibiting acid secretion. These include competitive antagonists that interact with stimulatory receptors (e.g., histamine H2-receptor antagonists) as well as noncompetitive inhibitors of H+K(+)-ATPase (e.g., omeprazole). The histamine H2-receptor antagonists (cimetidine, ranitidine, famotidine, and nizatidine) continue as first-line therapy for peptic ulcer disease and are effective in preventing relapse. Although they are generally well tolerated, histamine H2-receptor antagonists may cause untoward CNS, cardiac, and endocrine effects as well as interference with the absorption, metabolism, and elimination of various drugs. Omeprazole is a weak base that reaches the parietal cell through the bloodstream, diffuses through the cytoplasm, and becomes activated and trapped as a sulfenamide in the acidic canaliculus of the parietal cell. It covalently binds to H+K(+)-ATPase, thereby irreversibly blocking acid secretion in response to all modes of stimulation. The main drawback to its use is its extreme potency, which leads to virtual anacidity, gastrin and ECL cell hyperplasia, hypergastrinemia, and, in rats, to the development of carcinoid tumors.
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PMID:Control of gastric acid secretion. Histamine H2-receptor antagonists and H+K(+)-ATPase inhibitors. 135 65

The chromogranins are soluble, acidic, proteins which are frequently co-stored in neuroendocrine cells with biogenic amines. In the gastric mucosa chromogranin A is localized to enterochromaffin-like cells which are the main source of histamine, and which are known to be regulated by circulating gastrin. We have used radioimmunoassays selective for the extreme C-terminal regions of chromogranin A and B to examine changes in gastric extracts following modulation of the gastric luminal contents. There were decreased concentrations of the two chromogranins in tissue extracts of rats after food withdrawal (which lowered plasma gastrin concentrations); inhibition of acid secretion with the H+/K(+)-ATPase inhibitor, omeprazole (which increased plasma gastrin concentrations) raised chromogranin A and B concentrations both in fasted rats, and in rats fed ad libitum. There was no evidence for altered patterns of posttranslational cleavage of chromogranin A or B with these treatments. The data indicate that chromogranin A and B concentrations in gastric ECL cells are regulated in parallel with histamine production, and are consistent with the idea that the chromogranins play a role in the formation and stabilization of the secretory granule involved in amine storage.
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PMID:Functional control of chromogranin A and B concentrations in the body of the rat stomach. 143 76


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