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)

The enzyme D-galactose oxidase (GO) oxidizes the carbon-6 position of the hydroxyl groups of galactose-N-acetyl galactosamine, which are commonly present in colon cancer cells and in rectal mucin of patients with colon cancer. We have studied the marker disaccharide galactose and N-acetylgalactosamine on tissue sections by the GO-Schiff reagent in normal, preneoplastic, and neoplastic human colorectal epithelial and compared it with peanut agglutinin reactivity. Fifty-seven (81.4%) of 70 carcinomas, 83.3% (10/12) of precancerous lesions, 50% (10/20) of the mucosa remote from cancer, and 58.1% (25/43) of the mucosa immediately adjacent to cancer showed a positive reaction with GO-Schiff, but the normal control mucosa was nonreactive. The GO-Schiff reagent showed an intense reactivity with mucinous adenocarcinomas and poorly differentiated adenocarcinomas. An intense reactivity was also seen in the intracellular mucus of abnormal dilated crypts (polyps, five of five cases; colitis, four of seven cases; and remote mucosa, 10 of 20 cases). Comparison of peanut agglutinin and GO-Schiff reactivity showed that the nonmucinous (glandular) adenocarcinomas less frequently reacted with the GO-Schiff sequence. Our results showed that the carbohydrate moiety detected by the two techniques may not necessarily be the same, warranting further biochemical analysis. Meanwhile, the data suggested that, like peanut agglutinin, the GO-Schiff sequence has the potential to identify the tumor marker either at the tissue level or by a mucin test for screening colorectal cancer or precancer.
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PMID:Detection of the tumor marker D-galactose-beta-(1-->3)-N-acetyl-D-galactosamine in colonic cancer and precancer. 133 46

Patients with mucinous colorectal cancers characteristically present with advanced disease, however, the relationship between mucin production by colon cancer cells and their metastatic potential remains unclear. We therefore sought to define the relationship between mucin production by human colon cancer cells and metastatic ability by employing animal models of colon cancer metastasis. LS LiM 6, a colon carcinoma cell line with high liver metastasizing ability during cecal growth in nude mice produced twofold more metabolically labeled intracellular mucin and secreted four- to fivefold more mucin into the culture medium compared to poorly metastatic parental line LS174T. This was accompanied by a similar elevation in poly(A)+ RNA detected by blot hybridization with a human intestinal mucin cDNA probe, and increases in mucin core carbohydrate antigens determined immunohistochemically. Variants of LS174T selected for high (HM 7) or low (LM 12) mucin synthesizing capacity also yielded metastases after cecal growth and colonized the liver after splenic-portal injection in proportion to their ability to produce mucin. Inhibition of mucin glycosylation by the arylglycoside benzyl-alpha-N-acetyl-galactosamine greatly reduced liver colonization after splenic-portal injection of the tumor cells. These data suggest that mucin production by human colon cancer cells correlates with their metastatic potential and affects their ability to colonize the liver in experimental model systems.
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PMID:Mucin production by human colonic carcinoma cells correlates with their metastatic potential in animal models of colon cancer metastasis. 199 84

Colon cancer cells in culture synthesize and secrete mucin glycoproteins, which carry a number of cancer-associated antigens. However, the structures and mechanisms of biosynthetic processing are not well understood. Mucins synthesized and secreted by LS174T human colon cancer cells were compared to those in LS174T xenografts in athymic mice. Mucins radiolabeled with glucosamine or sulfate were purified by gel filtration and cesium chloride density gradient centrifugation. The mucins were of high molecular weight and were resistant to chondroitinase ABC, hyaluronidase and HNO2 treatment. They were, however, susceptible to pronase digestion and mild alkaline treatment. Using radiochemical precursors, the cellular mucin was shown to contain fucose, galactose, N-acetylgalactosamine, N-acetylglucosamine, N-acetylneuraminic acid, and sulfate. Oligosaccharides released by beta-elimination had N-acetylgalactosaminitol as the reduced amino sugar and also unreduced galactosamine, indicating that there is N-acetyl-galactosamine O-glycosidically attached to protein core and also peripheral N-acetyl-galactosamine not directly linked to protein. DEAE-cellulose chromatography of mucins showed two major peaks with both intracellular and secreted mucins, but xenograft mucins also had more acidic components. Sulfate-labeled mucins were shifted to less acidic peaks by neuraminidase digestion, which indicates that the same mucin molecules are both sialylated and sulfated. We conclude that the intracellular mucins of cultured colon cancer cells, those secreted into the medium, and those in nude mouse xenografts are chemically similar, but differ in sialic acid and sulfate content. This experimental model system, LS174T cells maintained in culture and as nude mouse xenografts, may be useful for further biosynthetic and structural studies of colon cancer mucin.
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PMID:Comparison of metabolically labeled mucins of LS174T human colon cancer cells in tissue culture and xenograft. 273 49

A high molecular weight, mucous glycoprotein (MG) from the pleural fluid of lung adenocarcinoma was purified by the DEAE-cellulose, gel-filtration and wheat germ agglutinin affinity chromatography. Protein portion of the molecule was composed of amino acids rich in serine, threonine and proline, but methionine and tyrosine concentrations were relatively low. About 65% of the weight, was composed of galactose, galactosamine, glucosamine, fucose and sialic acid. The gel-filtration pattern on Sepharose 4B revealed Mr greater than 10(6) Da. The SDS-PAGE pattern revealed a main band at the position of the Mr about 350 kDa under the reducing condition. Rabbit antibody against this molecule recognized mainly the peptide portion, and the radioimmunoassay (RIA) using the double antibody method was developed by this antibody. Serum MG level was low in healthy subjects and in benign diseases (0.8 +/- 0.7 U/ml; mean +/- SD and 1.1 +/- 2.3 U/ml, respectively). Thus, 3 U/ml was used as the cut-off value. The mean of serum MG levels and positive rates in malignant diseases were significantly high; 4.4 U/ml and 32.3% in lung cancer, 20.1 U/ml and 77.5% in pancreas cancer 11.6 U/ml and 64.3% in gastric cancer, 12.9 U/ml and 57.1% in hepatoma, 12.3 U/ml and 77.8 in colon cancer. Other malignancies such as ovarial and uterus cancer showed also high levels. Elevated values in these malignancies were observed frequently in patients with metastasis. On the other hand, the false positive cases were found in 10% of benign diseases. Determination of MG seems to be useful for the detection of several kinds of malignancies, but it is not adequately sensitive as a screening method for early cancer detection.
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PMID:Clinical significance of mucin-like high molecular weight glycoprotein originated from lung cancer as tumor marker. 274 68

Mucin from xenografts of LS174T human colon cancer cells was treated with anhydrous HF for 1 h at 0 degree C to give a product (HFA) with over 80% of the glucosamine and hexose removed, but retaining some galactosamine, and for 3 h at room temperature to give a product (HFB) devoid of carbohydrate. Rabbit antibodies against HFA bound to HFA much more than to HFB, and bound to native mucin to an intermediate extent. Antibodies to HFB bound to HFB more than to HFA, and did not bind to native mucin. Both HFA and native mucin bound a number of lectins, but HFB did not. By SDS/polyacrylamide-gel electrophoresis and size-exclusion h.p.l.c., native mucin and HFA are of apparent molecular mass greater than 400 kDa, whereas HFB is heterogeneous and of low molecular mass. On Western blots, antibody to HFA detected both high-molecular-mass mucin and a 90 kDa protein in homogenates of LS174T cells. Antibody to HFB detected a major 70 kDa band as well as higher-molecular-mass species. In tissue sections of normal colon and colon cancers, antibody to HFA showed both cytoplasmic and extracellular staining, whereas antibody to HFB generally stained only cytoplasmic antigens. These results indicate that anti-HFB antibody is specific for apo-mucin, whereas anti-HFA antibody is specific for GalNAc-apo-mucin.
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PMID:Deglycosylation of mucin from LS174T colon cancer cells by hydrogen fluoride treatment. 277 37

The structure of colonic mucin, which is thought to be important in several diseases, including ulcerative colitis and colon cancer, is poorly understood. Mucin was isolated from nude mouse xenografts of the LS174T colonic adenocarcinoma cell line by gel filtration and CsCl density gradient centrifugation. The isolated mucin had a high content of threonine, serine, and proline, with 28% of the total amino acids O-glycosylated. The carbohydrates present were fucose, sialic acid, galactose, N-acetyl-glucosamine, and N-acetyl-galactosamine in the ratio of 0.4:1.5:1.0:0.9:1.4. Rabbit antibodies were prepared that recognized primarily protein-dependent determinants. By DEAE-cellulose chromatography, the purified mucin was found to be heterogeneous, with three major components that had small differences in carbohydrate composition. LS174T was antigenically and chromatographically similar to mucins in colon cancer tissue specimens and in nonmalignant colonic mucosae.
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PMID:Isolation and characterization of colon cancer mucin from xenografts of LS174T cells. 318 78

The binding of fluorescein isothiocyanate (FITC)-conjugated lectins to mucin in the human colon was studied by using fluorescence microscopy. In normal mucosa, lectins that preferentially bind to exposed N-acetyl-galactosamine residues (Dolichos biflorus agglutinin and soybean agglutinin) bound selectively to the goblet cell mucin of well-differentiated cells in the upper colonic crypt. By contrast, lectins that require exposed non-reducing galactose residues for binding (Ricinus communis agglutinin1 and Bauhinia purpurea agglutinin) preferentially labeled the mucin of less-differentiated goblet cells located in the lower portion of the colonic crypt. The lectin derived from Arachis hypogaea (peanut agglutinin) has a high affinity for a carbohydrate structure not normally exposed in human tissues. This lectin did not label the goblet cell mucin in the normal colon. However, the mucin was labeled in all 21 colon cancer specimens examined. Additionally, the nonmalignant epithelium immediately adjacent to colon cancer (termed "transitional mucosa") also contained goblet cell mucin that was labeled by FITC-peanut agglutinin. Three conclusions may be drawn from the selective binding characteristics of FITC-lectins to colonic mucins. First, an alteration in the exposed, nonreducing carbohydrate residues occurs in human colonic mucin during the process of goblet cell differentiation. Second, an exposed carbohydrate structure that is not normally present in human tissues is expressed in the mucin produced by malignant colonic epithelium. Third, the presence of the cancer-associated carbohydrate structure in the mucin of transitional mucosa suggests that this tissue may be in the process of early malignant transformation.
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PMID:Alterations in human colonic mucin occurring with cellular differentiation and malignant transformation. 695 52

UDP-GlcNAc: GalNAc-R beta 3-GlcNAc-transferase (core 3 beta 3-GlcNAc-T, where GlcNAc is N-acetyl-D-glucosamine, GalNAc is N-acetyl-D-galactosamine and T is transferase) is expressed in a tissue-specific fashion and is high in normal colonic tissue, but downregulated in colon cancer. To further study the control of this enzyme, we examined the activity in pig, rat and human colonic tissues, and several human cancer cell lines. The enzyme was difficult to solubilize by detergents and was extremely unstable in the solubilized form. Using synthetic derivatives of the GalNAc-R substrate, we showed that the specificity of the enzyme in normal rat and human colonic mucosa requires all the substituents of the GalNAc-sugar ring of substrates for maximal activity. Core 3 beta 3-GlcNAc-T was significantly influenced by the structure of the aglycon group. None of the inactive substrate derivatives could inhibit the activity. N-Iodoacetamido-galactosamine alpha-benzyl was a weak substrate and significantly inhibited the incorporation of GLcNAc into GalNAc alpha-benzyl by human colonic homogenates. Surprisingly, none of the colonic cancer cell lines or any other cancer and leukaemia cells examined exhibited detectable activity of the enzyme, although a number of other glycosyltransferase activities involved in O-glycan biosynthesis were active. Mixing experiments did not reveal an endogenous inhibitor in HL60 cells or an activator of core 3 beta 3-GlcNAc-T in human colonic mucosa. Thus, the lack of core 3 beta 3-GlcNAc-T in human colonic mucosa. Thus, the lack of core 3 beta 3-GlcNAc-T activity in cancer cell lines may be due to cell transformation or cell culturing.
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PMID:Synthesis of O-glycan core 3: characterization of UDP-GlcNAc: GalNAc-R beta 3-N-acetyl-glucosaminyltransferase activity from colonic mucosal tissues and lack of the activity in human cancer cell lines. 765 72

Inositol hexaphosphate (InsP6 or phytic acid) has been shown to have antineoplastic action in in vivo models of colon carcinogenesis. We therefore investigated its effect on proliferation and differentiation of the human colon cancer cell line HT-29 in vitro. Proliferation was evaluated by neutral red incorporation assay, and differentiation was assessed by expression of the markers, cytokeratin, carcinoembryonic antigen (CEA) and beta-D-galactose-[1-->3]-N-acetyl-galactosamine (Gal-GalNAc). InsP6 in the culture media (0.66-10 mM) inhibited cell proliferation in a dose-dependent manner (P < 0.001), while inositol or inositol hexasulfate used as controls or media without InsP6 did not show any suppressive effect. The expression of the tumor marker, Gal-GalNac, was augmented (100.7% increase) by low dose (0.66 mM) of InsP6 but was subsequently suppressed with higher concentrations of InsP6. The expression of cytokeratin and CEA were both augmented by either InsP6 or inositol at all concentrations tested, although the degree of augmentation was milder with inositol than with InsP6. The combination of InsP6 and inositol (both 0.66 mm) resulted in augmentation (P < 0.001) of cytokeratin expression, while that of CEA remained unchanged. The inhibitory effect of InsP6 on cell proliferation was not altered by combination with additional inositol at any concentrations tested. Our results show that InsP6 inhibits cell proliferation and concomitantly increases differentiation and is therefore a candidate chemopreventive and chemotherapeutic agent for human large intestinal cancer.
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PMID:Growth inhibition and differentiation of HT-29 cells in vitro by inositol hexaphosphate (phytic acid). 769 27

Galactosyl beta-1,3-N-acetyl galactosamine (Gal beta-1,3-GalNAc) (Thomsen Friedenreich antigen), the Class I core sequence in O-linked oligosaccharide chains, behaves as an oncofetal antigen showing increased expression in many epithelial malignancies. Previous work has shown that peanut agglutinin (PNA), a lectin that binds Gal beta-1,3-GalNAc, stimulates proliferation in HT-29 (human colon cancer) cells and normal human colonic epithelium and this implies that cell surface glycoproteins which express Gal beta-1,3-GalNAc may play an important role in the regulation of epithelial cell proliferation. We have now studied the effect on epithelial cells of another dietary Gal beta-1,3-GalNAc-binding lectin, the edible mushroom Agaricus bisporus lectin (ABL). This differs from PNA in its ability to bind also to sialylated Gal beta-1,3-GalNAc. In contrast to PNA, ABL (25 micrograms/ml) inhibited incorporation of [3H]-thymidine into DNA of HT29 colon cancer cells by 87% (95% confidence limit, 85-89%), Caco-2 colon cancer cells by 16% (95% confidence limit, 12-20%), MCF-7 breast cancer cells by 50% (95% confidence limit, 47-52%), and Rama-27 rat mammary fibroblasts by 55% (95% confidence limit, 51-60%) when these cells were grown for 24 h in serum-free medium. When assessed by cell count, similar inhibition of proliferation of HT29 cells by ABL was found. In the presence of 2% fetal calf serum (which contains the ABL-binding glycoprotein fetuin), the inhibitory effect of ABL on cell proliferation was still demonstrable but at increased ABL concentration (60 micrograms/ml for 49% inhibition). Ten micrograms/ml ABL completely abolished the stimulatory effect on [3H]thymidine incorporation of epidermal growth factor (100 pg/ml) and PNA (25 micrograms/ml) and markedly inhibited the stimulatory effect of insulin (50 ng/ml). ABL (0.2 mg/ml) caused no cytotoxicity to HT29, MCF-7, and Rama-27 cells as measured by trypan blue exclusion, and inhibition of proliferation in HT29 cells caused by 50 micrograms/ml ABL was reversible after removal of the lectin. Binding studies with 125I-labeled ABL suggested a single class of binding site with an apparent Kd value of (4.12 +/- 0.29) x 10(-7) M with (3.6 +/- 0.3) x 10(7) binding sites/cell. A. bisporus lectin is a reversible noncytotoxic inhibitor of epithelial cell proliferation which deserves study as a potential agent for cancer therapy.
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PMID:Reversible inhibition of proliferation of epithelial cell lines by Agaricus bisporus (edible mushroom) lectin. 840 38


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