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: UMLS:C0699790 (colon cancer)
28,837 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Early alterations in cellular energy metabolism, reductive biosynthesis and enzymes related to cell proliferation were studied in 40 Wistar albino rats exposed to an acute level of deoxycholate (DOC), and fed different diets. The animals were divided into four equal groups and fed ad libitum either a normal diet (ND), a high-carbohydrate high-fibre (HCF) diet, or a high-protein high-fat (HPF) diet. Three times weekly intrarectal injection of 40 mg/0.2 ml DOC was given to three groups of the rats for 9 weeks. The specific activities of phosphofructokinase, pyruvate kinase, lactate dehydrogenase, glucose 6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase were all significantly (p < 0.05) increased in the DOC-treated animals compared with the physiological saline-treated control. Reductive biosynthetic enzyme activities (malic enzyme, isocitrate dehydrogenase-NADP(+)-dependent, and ATP-citrate lyase) were reduced in the DOC-treated animals compared with the control. Feeding rats with the HCF diet significantly (p < 0.05) lowered the specific activities of the enzymes of glycolysis, of the pentose phosphate pathway (oxidative) and hyaluronidase and proteinase compared with those of the HPF-fed rats. These results show an altered enzymic profile in rats fed an HCF and an HPF diet compared with rats fed the ND and suggests a protective role of the HCF diet against the development of colon cancer.
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PMID:Early changes in energy metabolism in rats exposed to an acute level of deoxycholate and fed a Nigerian-like diet. 797 71

Matrix metalloproteinases have been implicated in the growth and spread of metastatic tumors. This role was investigated in an orthotopic transplant model of human colon cancer in nude mice using the matrix metalloproteinase inhibitor BB-94 (batimastat). Fragments of human colon carcinoma (1-1.5 mm) were surgically implanted orthotopically on the colon in 40 athymic nu/nu mice. Administration of BB-94 or vehicle (phosphate buffered saline, pH 7.4, containing 0.01% Tween 80) commenced 7 days after tumor implantation (20 animals/group). Animals received 30 mg/kg BB-94 i.p. once daily for the first 60 days and then 3 times weekly. Treatment with BB-94 caused a reduction in the median weight of the primary tumor from 293 mg in the control group to 144 mg in the BB-94 treated group (P < 0.001). BB-94 treatment also reduced the incidence of local and regional invasion, from 12 of 18 mice in the control group (67%) to 7 of 20 mice in the treated group (35%). Six mice in the control group were also found to have metastases in the liver, lung, peritoneum, abdominal wall, or local lymph nodes. Only two mice in the BB-94 group had evidence of metastatic disease, in both cases confined to the abdominal wall. The reduction in tumor progression observed in the BB-94-treated group translated into an improvement in the survival of this group, from a median survival time of 110 days in the control group to a median survival time of 140 days in the treated group (P < 0.01). Treatment with BB-94 was not associated with any obvious toxic effect, and these results suggest that such agents may be effective as adjunctive cancer therapies.
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PMID:Matrix metalloproteinase inhibitor BB-94 (batimastat) inhibits human colon tumor growth and spread in a patient-like orthotopic model in nude mice. 806 71

Soluble secondary bile acids in the colon are supposed to be cytotoxic for normal colonic cells, resulting in an increased compensatory proliferation of colonic crypt cells, which is associated with an increased risk for colonic cancer. We developed a sensitive method to determine cytotoxicity of bile acids in the HT-29 colon cancer cell line, using a tetrazolium-based colorimetric assay. Only in vital cells, tetrazolium-salts are converted into formazan, which can be measured easily. Chenodeoxycholic acid and deoxycholic acid (DCA) were cytotoxic in concentrations above 100 microM, which is in the physiological range for soluble DCA in faeces. Conjugation of bile acids diminished cytotoxicity 7-10 fold. In this concentration range, no effect of calcium or calcium phosphate was demonstrated, suggesting that the effect of calcium on colonic proliferation is not mediated by a precipitation of soluble bile acids in the large bowel. Finally, we could demonstrate a significant correlation between the cytotoxicity of the aqueous phase of faeces and the soluble DCA concentration.
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PMID:A new method for the determination of the cytotoxicity of bile acids and aqueous phase of stool: the effect of calcium. 814 54

Monoclonal antibody A7 (A7 MoAb), from splenocytes of a mouse immunized against human colorectal carcinoma, was used as a T-2 toxin (T-2) carrier targeting colon cancer. T-2 was converted to T-2 hemiglutarate by glutaric anhydride treatment, and T-2-A7 MoAb conjugates containing up to 20 T-2 per antibody molecule were obtained from the antibody and T-2 hemiglutarate activated with N-hydroxysuccinimide. The in vitro cytotoxicity against human colon cancer (LS174T) cells indicated that the conjugates were markedly less toxic than the toxin itself. The immunoreactivity was evaluated from the in vitro binding activity of A7 MoAb with LS174T cells, and from the in vivo localization in LS174T-bearing nude mice; it remained essentially intact after conjugation with T-2. The efficacy of the T-2-A7 MoAb conjugate was tested against LS174T-bearing nude mice. The conjugate significantly suppressed the growth of the tumor in comparison with both phosphate-buffered saline and free T-2. These results suggest that the conjugate of T-2 with A7 MoAb might be useful as a selective immunotoxin for cancer immunotherapy, with less serious side effects than T-2.
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PMID:Anti-tumor activity of T-2 toxin-conjugated A7 monoclonal antibody (T-2-A7 MoAb) against human colon carcinoma. 816 36

Foci of aberrant and/or hexosaminidase-negative crypts in rat colon are putative precancerous lesions that have been proposed as biomarkers for short-term bioassays for chemical carcinogens and chemopreventive agents. The ability of a substance to reduce the yield of azoxymethane (AOM)-induced foci in the colon of male Fischer 344 rats, was evaluated as a screening assay for chemopreventive agents. Twenty-eight test agents were administered continuously in the diet from the start of the experiments until the animals were killed 35 days later. AOM was s.c. administered either as 15 mg/kg body wt on days 7 and 14 or as 30 mg/kg body wt on day 7 of the experiment. Foci of aberrant crypts were evaluated in whole mounts of methylene blue-stained colons. AOM induced twice as many foci when administered between 8.40 and 11.00 a.m. than between 2.45 and 5.55 p.m. Calcium salts of carbonate, chloride and glucarate decreased the yield of AOM-induced foci while the acidic salts of lactate and phosphate did not inhibit the formation of foci. Dimethyl-fumarate, fumaric acid, genistein, piroxicam, simethicone, sodium suramin and sulindac reduced the yield of AOM-induced foci of aberrant crypts, with genistein being the most potent. Only piroxicam of this group has previously been shown to inhibit colon cancer, while the rest have yet to be evaluated. Ibuprofen did not inhibit the formation of foci, although it has been reported to inhibit AOM-induced colon cancer in rats. Piroxicam and sulindac appeared to reduce preferentially hexosaminidase-negative foci of aberrant crypts, compared with those of apparently normal morphology. The AOM-induced foci of aberrant crypts assay appears suitable for screening chemicals for chemopreventive action.
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PMID:Use of azoxymethane-induced foci of aberrant crypts in rat colon to identify potential cancer chemopreventive agents. 820 67

High-resolution 31P NMR spectroscopy at 11.7 T was used to examine the influence of medium formulation (medium and serum type, and concentrations of glucose and inositol) on the cellular phosphate metabolism of CX-1 cells, a human colon cancer cell line derived from HT-29 cells. Striking differences in the 31P spectra of harvested CX-1 cells were observed. The largest variation was seen in the phosphocholine and UDP-hexose levels (up to seven-fold changes), with smaller differences in the levels of other phosphate metabolites. The major UDP-hexose species were found to be UDP-N-acetylglucosamine and UDP-N-acetylgalactosamine (ca 2:1 ratio), which have been proposed in the literature to be markers of cell differentiation status. Medium-induced alterations in metabolite levels were much greater than the normal variations seen in CX-1 control samples grown under identical conditions. They even exceeded the characteristic differences observed between different human tumor cell lines grown under one set of culture conditions. The remarkable sensitivity of CX-1 cellular phosphate metabolism to the culture environment has implications for the comparison of in vitro vs in vivo spectra, and for the interpretation of effects due to growth and therapy.
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PMID:The influence of medium formulation on phosphomonoester and UDP-hexose levels in cultured human colon tumor cells as observed by 31P NMR spectroscopy. 821 27

Rhodamine 123 is a lipophilic cationic compound that is selectively taken up by cancer cell mitochondria. This compound is toxic to epithelial cancer cells in vitro and displays significant anticancer activity in vivo. However, the mechanism of action of rhodamine 123 in intact, actively metabolizing cell preparations is unknown. We have used 31P- and 13C-nuclear magnetic resonance spectroscopy to quantitatively characterize how rhodamine 123 affects the energetics of human colon cancer cells (HCT-116) and spontaneously immortalized normal epithelial cells (CV-1). Rhodamine 123 differentially altered the phosphorus and glucose metabolism of HCT-116 and CV-1 cells. 31P-nuclear magnetic resonance detected mitochondrial poisoning in the HCT-116 human colon cancer cell line in its early stages after selective uptake of rhodamine 123. When we compared administration of rhodamine 123 and [1-C13]glucose to administration of [1-C13]glucose alone in the HCT-116 cells, we noted a marked decrease in intracellular pH to 6.7 +/- 0.06 (mean +/- SD) units, a 2.2-fold increase in lactate production, and a 1.8-fold increase in glucose consumption after 10 h. In addition, we found a 2-fold rise in intracellular free magnesium 12 h after rhodamine 123 administration. These results suggest that when rhodamine 123 inhibits mitochondrial ATP production, it initially stimulates cytoplasmic glycolysis in an attempt to maintain cellular energy demands. The marked fall in intracellular pH and rise in intracellular free magnesium after administration of rhodamine 123 may inhibit activity of several glycolytic enzymes: this effect would inhibit cytoplasmic ATP generation and interfere with multiple cell enzymatic processes, leading to cell death. The CV-1 cells showed no change in intracellular pH, intracellular free magnesium, or magnesium-bound ATP levels over the 24-h period following rhodamine 123 administration. Rhodamine 123 also failed to alter glucose utilization and lactate production levels significantly in the CV-1 cells. These results prove the usefulness of 31P- and 13C-nuclear magnetic resonance spectroscopy for quantifying differing effects of rhodamine 123 on the high energy phosphate metabolism and glucose metabolism of HCT-116 and CV-1 cells.
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PMID:Quantitative differential effects of rhodamine 123 on normal cells and human colon cancer cells by magnetic resonance spectroscopy. 824 40

Recently we have shown that supplemental dietary calcium precipitates luminal cytolytic surfactants and thus inhibits colonic epithelial proliferation, which may decrease the risk of colon cancer. In Western diets, milk products are quantitatively the most important source of dietary calcium. However, they also contain large amounts of phosphate, which has been hypothesized to inhibit the antiproliferative effect of calcium. Therefore, we studied in rats the possible differential antiproliferative effects of dairy calcium, calcium carbonate, and calcium phosphate, supplemented to a Western high-risk control diet. We observed that fecal bile acid excretion was similar in the various diet groups, whereas fatty acid excretion was stimulated by the calcium supplements in the order calcium carbonate > calcium phosphate > milk mineral. In fecal water, concentrations of bile acids and fatty acids were drastically decreased in the supplemented groups, resulting in decreased cytolytic activity of fecal water. In vitro incubation of fecal water from the control group with insoluble calcium phosphate also decreased the high concentrations of surfactants and their cytolytic activity. The response of the colonic epithelium to these primary luminal effects of calcium was a decrease in cell damage and cell proliferation. Only minor differences between the supplements were observed. The concentration of serum gastrin, the possible trophic effect of which could counteract the antiproliferative effect of calcium, was increased by the supplements, but no significant correlation was observed between serum gastrin concentration and epithelial proliferation. We conclude that dietary calcium precipitates luminal surfactants and thus inhibits cytolytic activity, epithelial cell damage, and colonic proliferation. The similar efficacy of calcium carbonate, calcium phosphate, and milk mineral indicates that the antiproliferative effect of milk mineral is mediated by its calcium content and is not inhibited by phosphate.
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PMID:Mechanism of the antiproliferative effect of milk mineral and other calcium supplements on colonic epithelium. 826 69

Luminal free fatty acids and bile acids may damage the colonic epithelium and stimulate proliferation, which may increase the risk of colon cancer. It has been suggested that only soluble calcium ions (Ca2+) precipitate fatty acids and bile acids, thus reducing their lytic activity. Consequently, precipitation of luminal Ca2+ by dietary phosphate should inhibit these effects. To evaluate the proposed antagonistic effects of dietary calcium and phosphate, we studied the intestinal interactions between calcium, phosphate, fatty acids, and bile acids in rats fed purified diets that differed only in the concentrations of calcium and phosphate. Increased dietary calcium drastically decreased the solubility of fatty acids in the ileum, colon, and faeces, as well as the solubility of bile acids in the colon and faeces. Although dietary calcium strongly increased the total faecal fatty acid concentration and hardly affected the total faecal bile acid concentration, the fatty acid and bile acid concentrations in faecal water were drastically decreased by dietary calcium. Consequently, the lytic activity of faecal water was decreased. Dietary phosphate did not interfere with these intestinal effects of calcium. These results indicate that dietary phosphate does not inhibit the protective effects of dietary calcium on luminal solubility and the lytic activity of fatty and bile acids.
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PMID:Effects of dietary calcium and phosphate on the intestinal interactions between calcium, phosphate, fatty acids, and bile acids. 847 85

Use of calcium supplements has increased dramatically in recent years yet little is known about the effect of calcium supplementation on colon physiology. We supplemented 22 individuals with a history of resected adenocarcinoma of the colon, but currently free of cancer, with 2000 or 3000 mg calcium for 16 wk. The effects of supplementation on duodenal bile acids and important fecal characteristics including total fecal output, wet and dry weight, pH, bile acids (in solids and in fecal water), and concentrations and total excretion of calcium, magnesium, phosphates (organic and inorganic), unesterified fatty acids and total fat were determined. Calcium supplementation significantly decreased the proportion of water in the stool (P = 0.03), doubled fecal excretion of calcium (P = 0.006), and increased excretion of organic phosphate (P = 0.035) but not magnesium. Calcium supplementation significantly decreased the proportion of chenodeoxycholic acid in bile (P = 0.007) and decreased the ratio of lithocholate to deoxycholate in feces (P = 0.06). The concentration of primary bile acids in fecal water decreased after 16 wk Ca supplementation. Together with other reports of a "healthier" bile acid profile with respect to colon cancer when changes such as those observed in this study were achieved, these results suggest a protective effect of calcium supplementation against this disease.
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PMID:Calcium supplementation modifies the relative amounts of bile acids in bile and affects key aspects of human colon physiology. 861 39


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