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:C0009402 (colorectal cancer)
53,228 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Carbohydrate expression of cancer cells is closely related to the metastatic nature of colorectal cancer. In the present study we investigated the relevance of carbohydrate expression profiles of colorectal cancer cells in the primary lesion to metastatic distribution patterns as well as prognosis in 134 cases. Carbohydrate expression was estimated by histochemistry with 17 kinds of lectins and 3 kinds of Lewis-related monoclonal antibodies (MAbs), and correlations between the staining and clinicopathological parameters were examined. The results showed that lymphatic invasion, lymph node metastasis, and peritoneal metastasis correlated with staining with lectins that bind galactose/N-acetylgalactosamine residues (Gal/GalNAc) such as Maclura pomifera (MPA), Arachis hypogaea (PNA), Helix pomatia (HPA), and Vicia villosa (VVA). In contrast, hepatic metastasis correlated with staining with Anguilla anguilla lectin (AAA), anti-LewisX (LEX-2), anti-sialyl Lewisa (NS 19-9), and anti-sialyl-dimeric LewisX (FH-6) MAbs, all of which bind preferentially to fucosylated carbohydrate chains. The five-year survival rate of patients was related to the staining of cancers with MPA, HPA, FH-6 or NS19-9, and MPA- and FH-6 staining were independent prognostic factors. We conclude that carbohydrate expression profiles of cancer cells are relevant to the route of tumor cell dissemination, metastatic pattern as well as prognosis of colorectal cancer.
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PMID:Carbohydrate expression profile of colorectal cancer cells is relevant to metastatic pattern and prognosis. 1191 84

O-glycosylation is thought to play a significant role in the regulation of cell growth. However, only limited information is available, and few specific and selective inhibitors have been found. We have synthesized a library of O-glycosylation inhibitors based on benzyl-O-N-acetyl-D-galactosamine. These inhibitors were tested with an established series of human colorectal cancer cell lines, which model the adenoma-carcinoma sequence. Cancer cells were incubated with the inhibitors, and examined for cell growth patterns, and cellular and subcellular glycosylation using a range of lectins with confocal microscopy. The specificity of O-glycan inhibition was confirmed for the library, relative to other forms of glycosylation. All inhibitors tested resulted in smaller cell yields. However, a differential effect on O-glycosylation was detected using the lectins showing variation of localization at a subcellular level in the various cell lines. Further differential action of the inhibitor library was observed for apoptosis and on the cell cycle with the cell lines tested. This work demonstrates that O-glycosylation is closely involved in the regulation of cell growth in colorectal cancer cells and that the generation of a library of low-molecular-mass inhibitors offers a valuable means of examining this regulation at the molecular level.
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PMID:Action of a library of O-glycosylation inhibitors on the growth of human colorectal cancer cells in culture. 1604 84

The carbohydrate determinants Sd(a) and sialyl Lewis x (sLex) both result from substitution of an alpha2,3-sialylated type 2 chain: the first with an N-acetylgalactosamine (GalNAc) beta1,4-linked to Gal and the second by an alpha1,3-linked fucose on N-acetylglucosamine. The Sd(a) antigen is synthesized by Sd(a) beta1,4-N-acetylgalactosaminyltransferase II (beta4GalNAcT-II), which is downregulated in colon cancer, whereas sLex is a cancer-associated antigen. In view of the possible competition between beta4GalNAcT-II and the fucosyltransferases (FucTs) synthesizing the sLex antigen, we investigated whether beta4GalNAcT-II acts as a negative regulator of sLex expression in colon cancer. beta4GalNAcT-II cDNA, when expressed in LS174T colon cancer cells, induces the expression of the Sd(a) antigen, a dramatic inhibition of sLex expression on cell membranes, and the replacement of sLex with the Sd(a) antigen on 290 kDa glycoproteins. Unexpectedly, in colorectal cancer specimens, beta4GalNAcT-II and sLex show a direct relation. The reasons appear to be (i) Sd(a) and sLex antigens are expressed by different glycoproteins of 340 and 290 kDa, respectively; (ii) the activity of alpha1,3-FucTs on 3'-sialyllactosamine parallels that of beta4GalNAcT-II; and (iii) both beta4GalNAcT-II and FucT activities parallel sLex expression. Quantitative reverse transcription-polymerase chain reaction analysis reveals that the transcripts of beta4GalNAcT-II and those of FucT-III and FucT-VII are positively correlated. These data indicate that in colon cancer tissues, the sLex antigen is regulated mainly by the total FucT activity on 3'-sialyllactosamine acceptors and that beta4GalNAcT-II can inhibit sLex expression in an experimental model, although not in colon cancer tissues.
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PMID:Biosynthesis and expression of the Sda and sialyl Lewis x antigens in normal and cancer colon. 1739 92

Cell growth pathways are mediated through protein-glycan interactions including O-glycosylation. Investigation of these growth pathways can be carried out using appropriate inhibitors to identify stage-specific events. We have adopted this approach to study a group of benzyl-O-N-acetyl-D-galactosamine analogues in human colorectal cancer cell lines. Exposure to O-glycan inhibitors resulted in the induction of apoptosis, a block in proliferation, accumulation of intracellular aryl-glycans and changes in related genes as detected by gene array. Colorectal cancer cell lines susceptible to the inhibitors showed growth arrest with all compounds. However, a differential action of each inhibitor was detected in the pattern of genes affected and in the structure of aryl-glycans formed.
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PMID:O-glycan regulation of apoptosis and proliferation in colorectal cancer cell lines. 1795 54

The lectin from Helix pomatia (HPA) binds to adenocarcinomas with a metastatic phenotype but the glycoconjugates of cancer cells that bind to the lectin have yet to be characterized in detail. We used a model of metastatic (HT29) and nonmetastatic (SW480) human colorectal cancer cells and a proteomic approach to identify HPA binding glycoproteins. Cell membrane proteins purified by HPA affinity chromatography, were separated by 2-DE and analyzed by MS. Competitive inhibition experiments with N-acetylgalactosamine, N-acetylglucosamine, and sialic acid confirmed that HPA binding was via a glycan-mediated interaction. Western blot analysis showed that HPA binds to proteins not recognized by an antibody against blood group A epitope. The proteomic study showed the main HPA binding partners include integrin alphav/alpha6 and annexin A2/A4. These proteins were found complexed with microfilament proteins alpha and beta tubulin, actin, and cytokeratins 8 and 18. HPA also bound to Hsp70, Hsp90, TRAP-1, and tumor rejection factor 1. This study revealed that the prognostic utility of HPA lies in its ability to bind simultaneously to many glycoproteins involved in cell migration and signaling, in addition, the proteins recognized by HPA are glycosylated with structures distinct from the blood group A epitope.
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PMID:Proteome analysis of metastatic colorectal cancer cells recognized by the lectin Helix pomatia agglutinin (HPA). 1799 29

Lectin-immobilized fluorescent nanospheres were designed with the aim of developing a novel endoscopic imaging agent for the detection of early colorectal cancer. Submicron-sized polystyrene nanospheres with surface poly(N-vinylacetamide) (PNVA) and poly(methacrylic acid) (PMAA) chains encapsulating fluorescein-labeled cholesterol were prepared as a platform of the imaging agent. Peanut agglutinin (PNA) was immobilized on the surface of fluorescent nanospheres through a chemical reaction with PMAA in order to recognize beta-D-galactosyl-(1-3)-N-acetyl-d-galactosamine (Gal-beta(1-3)GalNAc), which is the terminal sugar of the Thomsen-Friedenreich antigen that is specifically expressed on the mucosal side of colorectal cancer cells. The effect of surface structure of nanospheres on the affinity and specificity of immobilized PNA for Gal-beta(1-3)GalNAc was examined. Agglutination of normal and Gal-beta(1-3)GalNAc-expressed erythrocytes in the presence of nanospheres showed that PNA was immobilized actively on the nanosphere surface. Molecular weights of PNVA and PMAA affected the PNA activity most strongly. When the weight-average molecular weight of PNVA was nearly equal to that of PMAA, the affinity of PNA immobilized on the nanosphere surface for Gal-beta(1-3)GalNAc was as strong as that of intact PNA; the specificity for the carbohydrate residue was higher than that of the PNA. Results indicated that PNVA enhanced the specificity of PNA through the reduction of nonspecific interactions between PNA and carbohydrates other than Gal-beta(1-3)GalNAc on the erythrocyte surface without a significant decrease in the affinity.
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PMID:Poly(N-vinylacetamide) chains enhance lectin-induced biorecognition through the reduction of nonspecific interactions with nontargets. 1857 46

Peanut agglutinin (PNA)-immobilized polystyrene nanospheres with surface poly(N-vinylacetamide) (PNVA) chains encapsulating coumarin 6 were designed as a novel colonoscopic imaging agent. PNA was a targeting moiety that binds to beta-D-galactosyl-(1-3)-N-acetyl-D-galactosamine, which is the terminal sugar of the Thomsen-Friedenreich antigen that is specifically expressed on the mucosal side of colorectal cancer cells. PNVA was immobilized with the aim of reducing nonspecific interactions between imaging agents and normal tissues. Coumarin 6 was encapsulated into nanosphere cores to provide endoscopically detectable fluorescence intensity. After incubation of imaging agents with human cells, the fluorescence intensity of imaging agent-bound cells was estimated quantitatively. The average fluorescence intensity of any type of colorectal cancer cell used in this study was higher than that of small intestinal epithelial cells that had not exposed the carbohydrate. The in vivo performance of imaging agents was subsequently evaluated using a human colorectal cancer orthotopic animal model. Imaging agent-derived strong fluorescence was observed at several sites of the large intestinal mucosa in the tumor-implanted nude mice after the luminal side of the colonic loop was contacted with imaging agents. In contrast, when mice that did not undergo tumor implantation were used, the fluorescence intensity on the mucosal surface was extremely low. Data indicated that imaging agents bound to colorectal cancer cells and the cancer cell-derived tumors with high affinity and specificity.
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PMID:In vitro/in vivo biorecognition of lectin-immobilized fluorescent nanospheres for human colorectal cancer cells. 1915 Apr 72

Our studies provide direct evidence that O-glycosylation pathways play a role in the regulation of cell growth through apoptosis and proliferation pathways. A series of small molecular weight analogs of the GalNAc-alpha-1-O-serine/threonine structure based on 1-benzyl-2-acetamido-2-deoxy-alpha-O-d-galactopyranoside have been synthesized and tested in the human colorectal cancer cell lines PC/AA/C1/SB10C and HCA7/C29. Three inhibitors, 1-benzyl-2-acetamido-2-deoxy-alpha-O-D-galactopyranoside, and the corresponding 2-azido- and C-glycoside analogs were screened in these colorectal cancer cell lines at 0.5 mM and showed induction of apoptosis and downregulation of proliferation. Treatment of both cell lines with inhibitors led to changes in glycosylation detected with peanut lectin. The inhibition of glycosyltransferase activity in cell homogenates from human colorectal mucosal cells and cultured cell lines could be shown. The competitive action of the inhibitors resulted in the intracellular formation of 28 aryl-glycan products which were identified by MALDI and electrospray mass spectroscopy. The structures showed a differential pattern for each of the inhibitors in both cell lines. Gene array analysis of the glycogenes illustrated a pattern of glycosyltransferases that matched the glycan structures found in glycoproteins and aryl-glycans formed in the PC/AA/C1/SB10C cells; however, there was no action of the three inhibitors on glycogene transcript levels. The inhibitors act at both intermediary metabolic and genomic levels, resulting in altered protein glycosylation and aryl-glycan formation. These events may play a part in growth arrest.
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PMID:O-glycan inhibitors generate aryl-glycans, induce apoptosis and lead to growth inhibition in colorectal cancer cell lines. 1912 13

Cancer-associated alterations in cell surface and secreted glycoproteins have been catalogued for many years but many of the studies of alterations in mucin carbohydrate have relied on histochemical or immunohistochemical methods, with little direct chemical analysis. In this study, we analyzed the O-glycosylation pattern of MUC2 glycoprotein isolated from colorectal carcinomas, transitional mucosa and resection margins from three patients with blood group A, B and O, respectively. After alkaline borohydride treatment, the released oligosaccharides were structurally characterized by nanoESI Q-TOF tandem mass spectrometry without prior fractionation or derivatization. As expected, we found an increased expression of sialyl-Tn antigen in the colonic cancer mucins. A more interesting feature was the increased expression of a core 3 sialyl-Le(x) hexasaccharide, NeuAcalpha2-3Galbeta1-4(Fucalpha1-3)GlcNAcbeta1-3(NeuAcalpha2-6)GalNAc in tumor, which appeared to compete with its sulfo-Le(x) counterpart in normal tissue, SO3-3Galbeta1-4(Fucalpha1-3)GlcNAcbeta1-3(NeuAcalpha2-6)GalNAc. This antigen, whose structure was confirmed by NMR experiments, is based on a core 3 glycan and may be a potential marker for the malignant transformation of colonic cells. Unexpectedly, most of the glycans recovered in normal and carcinomas extracts were based on a sialylated core 3, GlcNAcbeta1-3(NeuAcalpha2-6)GalNAcol. Moreover, the pattern of glycosylation was very similar between mucins isolated from each sample, the main differences related to the level of expression of the major oligosaccharides. The data obtained in this investigation may have value for future screening studies on colorectal cancer.
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PMID:Expression of a core 3 disialyl-Le(x) hexasaccharide in human colorectal cancers: a potential marker of malignant transformation in colon. 1915 89

We observed previously that two carbohydrate epitopes, extended type 1 chain Le(a)-Le(a) and Le(b)-Le(a), are expressed strongly in human gastric or colorectal cancer and cell lines derived therefrom, but their expression in human normal colorectal cells is highly limited. A monoclonal antibody, termed GNX-8, was established through immunization of "KM mice" with colonic cancer cell line Colo205, and with purified Le(b)-Le(a) glycosphingolipid, followed by screening human IgG directed to this antigen. KM mice possess human chromosome fragments and are capable of producing human immunoglobulin. GNX-8 reacted specifically with extended type 1 chain epitope Le(b)-Le(a), bound to all five colonic cancer cell lines so far tested, and displayed strong complement-dependent cytotoxicity (CDC) and antibody-dependent cellular cytotoxicity (ADCC). The antigens defined by GNX-8, expressed in Colo205 cells, were: (i) glycosphingolipids with epitope Le(b)-Le(a), whose reactivity was abolished upon defucosylation; (ii) glycoproteins with molecular mass range from 32 to >175 kDa, which were depleted in cells cultured in the presence of benzyl-alpha-GalNAc, indicating that these epitopes are O-linked glycans.Immunohistological reactivity of GNX-8 at 1 mug/ml, applied on tissue sections from colorectal and various other types of cancer, was much stronger than that with various normal cells and tissues. GNX-8 reactivity with normal cells required a much higher concentration (150 mug/ml), and this reactivity was based on cross-reaction with non-extended, normal blood group Le(b) antigen. Growth of subcutaneous xenograft of human colonic cancer cells, Colo205 or DLD-1, in nude mice or SCID mice, was strongly inhibited by administration of GNX-8. These observations, taken together, indicate that antibody GNX-8, directed specifically to Le(b)-Le(a) antigen, provides a novel direction of immunotherapy for human colorectal cancer. (c) 2009 UICC.
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PMID:Human monoclonal antibody GNX-8 directed to extended type 1 chain: Specific binding to human colorectal cancer. 2002 30


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