Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Two previous studies have shown higher circulating gastrin levels in subjects with colonic neoplasia than in colonoscopy-negative controls. In this much larger study, sera were collected from fasting subjects undergoing colonoscopy. Colonoscopy with biopsy classified participants as having colonic adenomas (N = 139), colon carcinoma (N = 29), or controls without colonic neoplasia (N = 150). Frozen, stored sera were later analyzed for gastrin by radioimmunoassay. Serum gastrin values were no higher in subjects with colonic adenomas or carcinoma than in colonoscopy-negative controls. We conclude that elevated serum gastrin levels play little, if any, role in the initiation of colonic neoplasia.
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PMID:Serum gastrin is not higher in subjects with colonic neoplasia. 141 93

A synthetic DNA template has been constructed that is suitable for the quantitation of mRNAs encoding gastrin, transforming growth factor alpha (TGF alpha), cholecystokinin, and the 78-kDa gastrin-binding protein. The template was used to measure levels of gastrin and TGF alpha mRNA in 7 colonic and 2 gastric carcinoma cell lines by the polymerase chain reaction. All lines produced detectable gastrin and TGF alpha mRNA with amounts varying between 2.1 and 540 molecules of gastrin mRNA/10(3) cells and 1.1 and 28 molecules of TGF alpha mRNA/10(3) cells. These results are consistent with the hypothesis that both gastrin and TGF alpha act as autocrine growth factors in colon carcinoma cell lines.
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PMID:Measurement of gastrin and transforming growth factor alpha messenger RNA levels in colonic carcinoma cell lines by quantitative polymerase chain reaction. 155 30

Polyamines are essential factors of cell growth and differentiation. Modulation of the cellular polyamine content by 2-difluoromethylornithine (DFMO) inhibiting ornithine decarboxylase (ODC), or by hormones inducing ODC, influences cell growth. Gastrin acts trophically on some colonic carcinomas and their growth is inhibited by gastrin receptor blockers. The mechanism of the trophic action of gastrin on colonic carcinomas is not known. In this study the effect of gastrin, gastrin receptor blockers, epidermal growth factor (EGF) and DFMO on growth and ODC activity of four human colon carcinoma cell lines (SW 403, SW 1116, LS 174 T and Lovo) was investigated. Growth and ODC activity of all cell lines were inhibited by DFMO. Growth of the SW 403 cell line was increased by gastrin and inhibited by the gastrin receptor blocker benzotrypte. The other cell lines did not respond to gastrin and the gastrin receptor blocker. In SW 403 cells ODC activity was increased by gastrin, and was also elevated after treatment with the gastrin receptor blocker. These in vitro results were confirmed by studies on tumours that developed from SW 403 cells in nude mice. Combination of benzotrypte and DFMO did not enhance the antiproliferative effect. EGF increased growth of SW 403 cells, but no induction of ODC activity was measured. LS 174 T cells were not stimulated by EGF. Medium replacement was the strongest stimulus of ODC activity in SW 403 cells already inducing ODC after 3 h. During cell culture ODC activity was high after seeding and decreased continuously with increasing cell density. These data suggest that gastrin induces ODC in gastrin-sensitive colonic carcinoma cells. DFMO appears to be a valuable antiproliferative agent in colonic carcinoma cells.
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PMID:Influence of gastrin, gastrin receptor blockers, epidermal growth factor, and difluoromethylornithine on the growth and the activity of ornithine decarboxylase of colonic carcinoma cells. 199 67

The gastrointestinal tract is the largest endocrine organ in the body. However, gastrointestinal hormones are not confined to the gut and many of them are delivered to their target tissue by neural and paracrine routes as well as the circulation. Regulatory peptide is therefore a more appropriate term than gastrointestinal hormone. The functions of these regulatory peptides include effects on intake, digestion and absorption of food, and changes in gut secretions, motility and growth. Since these peptides do not act alone but in concert it has been difficult to ascribe particular functions to individual peptides. However, the recent and on-going development of specific regulatory peptide agonists and antagonists has resulted in major advances in our understanding of the physiology of these peptides. In turn these findings are creating new therapeutic avenues providing some return from all the research on these gastrointestinal regulatory peptides. The somatostatin derivative (octreotide or sandostatin) is the most obvious example. Although only approved in Australia for treatment of carcinoids and VIPomas, the prospects include treatment of other gastroenteropancreatic tumours, acromegaly, idiopathic diarrhoea, fistula closure, dumping, and ERCP or post-operative pancreatitis. A new gastrokinetic agent, that acts via the motilin receptor, is undergoing trials for the treatment of impaired gastric emptying. The trophic effect of gastrointestinal peptides has clinical significance. For instance, gastrin antagonists inhibit cell proliferation of colon carcinoma cell lines. Furthermore the trophic effect of gastrin must be considered when potent gastric acid inhibitors, which cause a reflex increase in gastrin, are used. The outlook is for more mammalian regulatory peptides to be discovered adding further to the complexity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Gastrointestinal hormones: from basic science to a clinical perspective. 220 81

The peptide gastrin has been shown to have growth stimulatory effects on normal as well as malignant gastrointestinal tissue. In this study, we have examined the possibility of autocrine growth-stimulation of cultured colon tumor cells by a gastrin-like peptide. The gastrin/CCK receptor antagonist dibutyryl cGMP inhibited the proliferation of two human colon carcinoma cell lines HCT 116 (EC50 = 1.3 mM) and CBS (EC50 = 2.5 mM) in a dose-dependent manner. Marked morphological changes were observed in HCT 116 cells after treatment with 1 mM dibutyryl cGMP. In receptor binding assays, dibutyryl cGMP competed with 125I-labeled gastrin for binding to HCT 116 cells (IC50 = 1.8 mM). Another derivative of cyclic GMP, 8-Bromo cGMP used as control due to its considerably weaker affinity for the gastrin/CCK receptor, did not compete with radiolabeled gastrin for binding to HCT 116 cells and had no effect on the morphology or proliferation in monolayer cultures of HCT 116 or CBS cells at concentrations up to 10 mM. Antigastrin/CCK antisera was also found to have dose-dependent cytostatic effects on HCT 116 and CBS cells adapted to growth in serum-free medium. The antiproliferative effect of the gastrin/CCK receptor antagonist and antigastrin/CCK antibodies suggested that a gastrin-like peptide secreted by these cells may promote growth. Radioimmunoassay of the conditioned medium of these two cell lines indicated the presence of a gastrin-like peptide (10-50 pg/10(6) cells/72 h). Northern analysis using an oligonucleotide DNA probe complementary to the nucleotide sequence coding the dodecapeptide carboxyl terminal of human gastrin showed three transcripts (0.7, 3.3, and 3.7 kb) that hybridized with the probe. These data provide, for the first time, evidence for an autocrine growth stimulatory role of a gastrin/CCK-like peptide in cultured colon tumor cells.
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PMID:Evidence for autocrine growth stimulation of cultured colon tumor cells by a gastrin/cholecystokinin-like peptide. 229 33

The gastrointestinal hormone gastrin has been shown to stimulate the growth of normal colonic mucosa. To examine for a possible role of gastrin in the proliferation of cultured colon tumor cells, we have studied the effects of two gastrin receptor antagonists, proglumide and benzotript, and of antibodies to gastrin. We find that proglumide (50% effective concentration, 2 to 5 mM) and benzotript (50% effective concentration, 0.4 to 0.8 mM) inhibit the monolayer growth of six human colon cancer cell lines. Addition of exogenous gastrin abrogated the growth-inhibitory effect of proglumide. The anchorage-independent growth of colon carcinoma cells was also inhibited by the two gastrin antagonists. Also, a dose-dependent increase in carcinoembryonic antigen secretion was observed upon treatment with proglumide and benzotript in three cell lines examined. Half-maximal inhibition of labeled gastrin binding was observed at concentrations of 0.4 mM benzotript and 8.6 mM proglumide. In addition, antigastrin antiserum added to HCT 116 cells adapted to growth in serum-free medium resulted in a concentration-dependent inhibition of cellular proliferation. These data suggest that gastrin may function as an autocrine growth factor in colon carcinoma.
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PMID:Antiproliferative effects of gastrin receptor antagonists and antibodies to gastrin on human colon carcinoma cell lines. 319 91

Pharmacological doses of pentagastrin or gastrin are known to stimulate cell proliferation in normal colonic epithelium but the growth-promoting effect of gastrin on colon carcinoma is still controversial. In this study morphological parameters were measured to study the effect of pentagastrin (240 micrograms/kg) on the cell proliferation kinetics in experimental tumours. Colon cancer was produced in rats by weekly injections (20 mg/kg b.wt.) of 1.2-dimethylhydrazine for 24 weeks. Tritiated thymidine was given after administration of pentagastrin or the control solution to the animals. 75% of the animals from the pentagastrin group and 66% of the controls had at least one colon cancer. Autoradiographs of the colonic tumors were performed and the percentage of labeled cells in the cancer cell population was determined after counting 4000 to 16,000 cancer cells per tumor. The labeling index for cancer cells in the pentagastrin-treated group (21.49 +/- 1.76%) was higher (P less than 0.01) than in the control group (14.76 +/- 0.66%). In a second study vincristine sulphate (1 mg/kg) was given to the animals 20 h after administering pentagastrin or the control solution. The percentage of arrested metaphases in the tumours was determined after counting 10,000 to 24,000 cancer cells per histological section. Pentagastrin increased (P less than 0.01) the mean metaphase index by 108% (4.9 +/- 0.44% vs 2.35 +/- 0.32%). These data indicate that cell cycle manipulation of colon cancer is possible with hormonal peptides.
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PMID:Stimulating effect of pentagastrin on cancer cell proliferation kinetics in chemically induced colon cancer in rats. 335 23

Gastrin is transcriptionally responsive to EGF stimulation (Merchant et al., 1991, Mol. Cell. Biol., 11:2686-2696). Consequently, we hypothesized that previously recognized gastrin autocrine loops (Hoosein et al., 1990, Exp. Cell. Res., 186:15-21), might be controlled by autocrine TGF alpha in human colon carcinoma cells. Therefore, we examined the interaction between these two autocrine growth factors in two colon carcinoma cell lines which utilize TGF alpha. The FET cell line requires exogenous TGF alpha/EGF for optimal growth and has a classical TGF alpha autocrine loop which is disrupted by TGF alpha or epidermal growth factor receptor (EGFr) antibodies. The HCT 116 cell line is not dependent on exogenous TGF alpha/EGF and exhibits a nonclassical TGF alpha autocrine loop which is not disrupted by neutralizing antibodies to either TGF alpha itself or the EGFr. Basal gastrin mRNA production is significantly higher in HCT 116 than FET as measured by RNase protection assay. In the FET cells, exogenous EGF stimulates gastrin mRNA production but not in HCT 116. When the TGF alpha autocrine loop in HCT 116 is disrupted by constitutive expression of antisense TGF alpha mRNA, the gastrin mRNA level is significantly repressed. In xenografts derived from these antisense clones, TGF alpha reverted to high expression, and the gastrin mRNA level was again increased. This interaction between the strong TGF alpha loop in HCT 116 and the gastrin autocrine loop may confer a growth advantage to these colon cells. Such interactions between growth factors may promote enhanced tumorigenicity to transformed cells with these strong, nonclassical autocrine loops.
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PMID:Regulation of autocrine gastrin expression by the TGF alpha autocrine loop. 782 34

The non-selective gastrin/cholecystokinin receptor antagonists proglumide and benzotript inhibit colon carcinoma cell proliferation by binding to the 78 kDa gastrin-binding protein (GBP) (Baldwin, Proc. Natl. Acad. Sci. USA, 91 (1994) 7593-7597). However, although most colon carcinoma cell lines synthesize progastrin, production of mature amidated gastrin17 has not been observed. In order to define the structural requirements for the binding of gastrin to the GBP the affinities of various fragments of amidated and C-terminally extended gastrin17 for the GBP have been measured. The results indicate that the GBP recognizes both N- and C-termini of gastrin17. Moreover since C-terminal amidation is not a prerequisite for binding of gastrin to the GBP, the GBP is a potential target for the autocrine effects of progastrin.
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PMID:Binding of progastrin fragments to the 78 kDa gastrin-binding protein. 785 40

There is now clear-cut evidence that polypeptide growth factors control the proliferation of the normal gastrointestinal mucosa. Epidermal growth factor (EGF) stimulates normal growth throughout the gastrointestinal tract, and accelerates the healing of ulcerated epithelium. While the effects of gastrin were at first thought to be similarly widespread, the gastrin target now appears to be restricted to the enterochromaffin-like cells in the stomach. Isolated reports suggest that several other hormones, including fibroblast growth factor and the insulin-like growth factors, have similar proliferative effects. In contrast, indirect evidence suggests that somatostatin and transforming growth factor-beta inhibit the growth of the gastrointestinal mucosa. The same growth factors profoundly affect the growth of some gastrointestinal carcinomas. Prolonged hypergastrinaemia increases the risk of development of gastric endocrine tumours, but has no effect on the incidence of gastric adenocarcinoma. Gastrin also stimulates the in vivo growth of 50% of gastric and colorectal carcinoma xenografts, but has no consistent effect on the growth of carcinoma cell lines in vitro. EGF, on the other hand, significantly stimulates proliferation of many gastrointestinal cell lines in culture. Interest has recently focused on autocrine stimulation of gastrointestinal carcinoma growth. Elevated levels of EGF receptor, and of EGF or related mRNAs, have been demonstrated in gastric carcinomas, and the growth of some gastrointestinal cell lines is inhibited by antibodies against EGF, and by antisense oligonucleotides based on EGF mRNA. Similarly gastrin/cholecystokinin antagonists inhibit the growth of several colon carcinoma cell lines, although the spectrum of antagonist potencies suggests that classical gastrin and cholecystokinin receptors are not necessarily involved. Continued research on antagonists may therefore lead to novel therapies for gastrointestinal cancers.
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PMID:Gut hormones, growth and malignancy. 790 61


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