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)

Short-chain fatty acids (SCFAs: acetate, propionate, n-butyrate) arising in the large bowel during bacterial fermentation of dietary fibre and starch have paradoxical effects on colonic epithelial proliferation. While the three major SCFAs stimulate proliferation of normal crypt cells, n-butyrate and, to a lesser degree, propionate inhibit growth of colon cancer cell lines. At the molecular level, n-butyrate causes histone acetylation, favours differentiation, induces apoptosis and regulates the expression of various oncogenes. To understand the complex effects of SCFAs on carcinogenesis, it is important to study the intermediate stages of the adenoma-carcinoma sequence where a "switch" from stimulation to suppression of cell proliferation must occur.
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PMID:Role of short-chain fatty acids in the prevention of colorectal cancer. 757 95

Ulcerative colitis, an idiopathic inflammatory disease of the colonic mucosa, can be effectively treated by enemas containing short chain fatty acids (SCFA) such as butyrate, propionate, and acetate. The molecular mechanisms that lead to this response have not been well characterized. It is well known that intestinal inflammation leads to an alteration in patterns of epithelial differentiation with an increase in epithelial proliferation and an expansion of cell populations in an undifferentiated state. SCFAs such as butyrate are capable of inhibiting cell proliferation and inducing a differentiated phenotype in vitro. The Caco-2 colon cancer cell line was used to study the effect of SCFAs and the process of cellular differentiation on the expression of the pro-inflammatory cytokine, interleukin 8 (IL-8). SCFAs and trichostatin A, structurally unrelated compounds which both induce histone hyperacetylation, both led to a dose-dependent inhibition of IL-8 gene expression. Furthermore, spontaneous differentiation of Caco-2 cells by growth to a post-confluent state also inhibited the expression of IL-8. A possible mechanism by which SCFAs may be effective in the treatment of ulcerative colitis may be through their ability to increase histone acetylation states and inhibit the production of pro-inflammatory substances by the intestinal epithelium.
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PMID:Inhibition of IL-8 gene expression in Caco-2 cells by compounds which induce histone hyperacetylation. 906 93

n-Butyrate inhibits the growth of colon cancer cell lines. In the HCT 116 cell line, butyrate-induced growth inhibition is almost fully reversible, whereas in the VACO 5 cell line, a subpopulation undergoes apoptosis within 30 hr of treatment with butyrate. Concurrent treatment of VACO 5 cells with butyrate and the phorbol ester 12-O-tetradecanoylphorbol 13-acetate (TPA) accelerates and increases the incidence of cell death to nearly 100% of the population, whereas HCT 116 cells largely remain alive during treatment with this combination. The action of butyrate as an inhibitor of histone deacetylase was assessed in these cell lines by examining extracted core histones for their electrophoretic mobility in Triton/acid/urea gels. The concentrations of butyrate that were effective for inducing apoptosis were similar to the concentrations that caused hyperacetylation of core histones in the VACO 5 cell line. Furthermore, an examination of other carboxylic acids for induction of apoptosis revealed a rank order that corresponded to the order of potency in causing hyperacetylation of core histones. Specifically, the active acids were 3-5 carbons in length and lacked substitution at the 2-position. Isovaleric and propionic acids, in particular, proved to be effective inducers of both hyperacetylation and apoptosis at 5 mM concentrations, a finding of potential relevance to the unusual pancytopenia occurring after acidotic episodes in isovaleric and propionic acidemias. The duration of butyrate treatment required for chromatin fragmentation (10-20 hr) corresponded to the time required for histone H4 to become predominantly tetraacetylated. Furthermore, trichostatin A, a structurally dissimilar inhibitor of histone deacetylase, mimicked butyrate-induced apoptosis of VACO 5 cells and growth inhibition of HCT 116 cells. The dramatic enhancement of VACO 5 cell death by TPA, and the high level resistance of HCT 116 cells to butyrate were not evident from histone acetylation determinations. Thus, applications of butyrate for cytoreduction therapy will benefit from pharmacodynamic assessment of histone acetylation, but will require additional work to predict susceptibility to butyrate-induced death.
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PMID:Apoptotic death in adenocarcinoma cell lines induced by butyrate and other histone deacetylase inhibitors. 921 97

In the past year, several papers have been published which implicate a link between alterations in chromatin structure and the development of cancer. Both histone hyperacetylation and hypoacetylation appear to be important in the neoplastic process, depending on the target gene involved. In the case of colon cancer, induction of the p21 gene by histone hyperacetylation may be a mechanism by which dietary fiber prevents carcinogenesis.
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PMID:Histone acetylation and cancer. 1032 42

The short-chain fatty acid butyrate, produced by microbial fermentation of dietary fiber in the large intestine, is a physiological regulator of major pathways of colonic epithelial cell maturation: cell cycle arrest, lineage-specific differentiation, and apoptosis. Microarray analysis of 8,063 sequences demonstrated a complex cascade of reprogramming of SW620 colonic epithelial cells upon treatment with butyrate characterized by the progressive recruitment of gene sets as a function of time. Comparison with the effects of trichostatin A, in conjunction with differences in the kinetics of alteration of histone acetylation induced by butyrate and trichostatin A, identified subsets of induced and repressed genes likely coordinately regulated by altered histone acetylation. The butyrate response was also compared in detail with that of sulindac, a nonsteroidal anti-inflammatory drug with significant chemopreventive activity for colon cancer, and curcumin, a component of mustard and curry structurally and functionally related to sulindac that also has chemopreventive activity. Although gene clusters were identified that showed similar responses to butyrate and sulindac, the data were characterized by the extensive differences in the effects of the two agents. This was striking for functional classes of genes involved in signaling pathways and in cell cycle progression, although butyrate and sulindac induce a similar G0-G1 arrest, elevation of beta-catenin-Tcf signaling, and apoptotic cascade. As regards cell cycle arrest, the underlying mechanism in response to butyrate was most similar to that of the Caco-2 cell line that had spontaneously undergone a G0-G1 arrest and least similar to the G2-M arrest stimulated by curcumin. Thus, high-throughput microarray analysis of gene expression profiles can be used to characterize and distinguish the mechanisms of response of colonic epithelial cells to physiological and pharmacological inducers of cell maturation. This has important implications for characterization of chemopreventive agents and recognition of potential toxicity and synergies. The data bases, gene clusters, and analyses are available at http:// sequence.aecom.yu.edu/genome/.
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PMID:Genetic reprogramming in pathways of colonic cell maturation induced by short chain fatty acids: comparison with trichostatin A, sulindac, and curcumin and implications for chemoprevention of colon cancer. 1096 8

The role of histone hyperacetylation in regard to growth, differentiation, and apoptosis in colon cancer cells was assessed in an in vitro model system. HT-29 cells were grown in +/-10% fetal bovine serum with either 5 mM sodium butyrate or 0.3 microM trichostatin A [single dose (T) or 3 doses 8 h apart (TR)] for 24 h. Serum-starved HT-29 cells were further treated with epidermal growth factor or insulin-like growth factor I for an additional 24 h. Apoptosis was quantified with propidium iodide and characterized by electron microscopy. Northern blot analyses were performed with cDNA probes specific for intestinal alkaline phosphatase, Na-K-2Cl cotransporter, the cell cycle inhibitor p21, and the actin control. Flow cytometric analysis revealed a time-dependent growth suppression along with early induction of p21 mRNA in the butyrate, T, and TR groups. Histone hyperacetylation, assessed by acid-urea-triton gel electrophoresis, was transient in the T group but persisted for up to 24 h in the butyrate and TR groups. Induction of apoptosis, growth factor unresponsiveness, and differentiation occurred in the butyrate- and TR-treated cells but not those treated with a single dose of trichostatin A. Thus transient hyperacetylation of histones is sufficient to induce p21 expression and produce cellular growth arrest, but prolonged histone hyperacetylation is required for induction of the programs of differentiation, apoptosis, and growth factor unresponsiveness.
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PMID:Transient vs. prolonged histone hyperacetylation: effects on colon cancer cell growth, differentiation, and apoptosis. 1117 32

In recent years, significant progress has been made in understanding the nature of the human genome and the role that genes and their related proteins play in both normal and diseased cells. It has been proven that many cancers are caused by the mutation of certain genes or lack of gene function. The introduction of those genes into cancer cells where gene function is compromised, can work to restore gene function and stop tumor progression. There have been numerous clinical trials, which have shown that gene therapy products are efficacious in humans. The RIZ1 gene is a member of a superfamily of histone/protein methyltransferases. The gene is commonly inactivated in human cancers. Gene knock-out study has established RIZ1 as a tumor susceptibility gene in mice. The gene has potent tumor suppressive activities in causing apoptosis, G2/M arrest, or both. Preclinical animal studies have shown that a recombinant adenovirus expressing the gene, AdRIZ1, can suppress the growth of colon cancer xenografts. Therefore, AdRIZ1 shows promise as a new generation of gene therapy products to enter the clinic.
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PMID:The tumor suppressor gene RIZ in cancer gene therapy (review). 1174 55

Butyrate suppresses the growth of colon cancer cells, inducing differentiation and apoptosis in vitro. Increased expression of inducible nitric oxide synthase (iNOS) and cyclooxygenase-2 (COX-2) has been suggested to be closely involved in colon carcinogenesis. In this study, effects of sodium butyrate on the promoter-dependent transcriptional activity of iNOS and COX-2 genes were investigated in a colon cancer cell line, DLD-1, using a reporter gene assay system. Sodium butyrate significantly reduced promoter-dependent iNOS transcriptional activity dose-dependently at concentrations higher than 0.1 mM. COX-2 transcriptional activity was not suppressed, but slightly increased. While hyperacetylated histones appeared at concentrations of sodium butyrate suppressing iNOS gene promoter activity, promoter-dependent transcriptional activities of iNOS and COX-2 genes were both increased by the histone deacetylase inhibitor trichostatin A. These results suggested that sodium butyrate exhibits differential effects on iNOS and COX-2 genes, acting to suppress iNOS expression via mechanisms independent of histone acetylation.
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PMID:Suppression of promoter-dependent transcriptional activity of inducible nitric oxide synthase by sodium butyrate in colon cancer cells. 1182 62

The short-chain fatty acid (SCFA) butyrate is produced via anaerobic bacterial fermentation within the colon and is thought to be protective in regard to colon carcinogenesis. Although butyrate (C4) is considered the most potent of the SCFA, a variety of other SCFA also exist in the colonic lumen. Butyrate is thought to exert its cellular effects through the induction of histone hyperacetylation. We sought to determine the effects of a variety of the SCFA on colon carcinoma cell growth, differentiation and apoptosis. HT-29 or HCT-116 (wild-type and p21-deleted) cells were treated with physiologically relevant concentrations of various SCFA, and histone acetylation state was assayed by acid-urea-triton-X gel electrophoresis and immunoblotting. Growth and apoptotic effects were studied by flow cytometry, and differentiation effects were assessed using transient transfections and Northern blotting. Propionate (C3) and valerate (C5) caused growth arrest and differentiation in human colon carcinoma cells. The magnitude of their effects was associated with a lesser degree of histone hyperacetylation compared with butyrate. Acetate (C2) and caproate (C6), in contrast, did not cause histone hyperacetylation and also had no appreciable effects on cell growth or differentiation. SCFA-induced transactivation of the differentiation marker gene, intestinal alkaline phosphatase (IAP), was blocked by histone deacetylase (HDAC), further supporting the critical link between SCFA and histones. Butyrate also significantly increased apoptosis, whereas the other SCFA studied did not. The growth arrest induced by the SCFA was characterized by an increase in the expression of the p21 cell-cycle inhibitor and down-regulation of cyclin B1 (CB1). In p21-deleted HCT-116 colon cancer cells, the SCFA did not alter the rate of proliferation. These data suggest that the antiproliferative, apoptotic and differentiating properties of the various SCFA are linked to the degree of induced histone hyperacetylation. Furthermore, SCFA-mediated growth arrest in colon carcinoma cells requires the p21 gene.
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PMID:The effects of short-chain fatty acids on human colon cancer cell phenotype are associated with histone hyperacetylation. 1198 30

We previously reported that the retinoic acid (RA) insensitivity of RARbeta induction is a general feature of human colon cancer cells (Biochem. Pharmacol., 59: 485-496, 2000). In the present investigation, we analyzed potential transcriptional defects associated with the expression of the RARbeta gene in colon cancer cells. Transfection of reporter constructs containing the RARbeta gene promoter as well as truncated fragments of the promoter showed a significant induction of reporter activity by RA treatment in RA-sensitive HCT-15 cells, but not in RA-resistant DLD-1 cells. The results suggest that the transcriptional defect of RARbeta expression may not be due to the presence of a specific cis-element in the RARbeta promoter. Next we examined whether coactivators and core-pressors of nuclear receptors were involved in the RA sensitivity of colon cancer cells. Transfection of coactivators such as CREB binding protein (CBP) and p300 up-regulated the RA-responsive element present in the RARbeta promoter (betaRARE) in DLD-1 cells up to the level in HCT-15, while coexpression of the nuclear receptor corepressor (NCoR) suppressed the betaRARE activity in HCT-15 cells. The expression level of CBP protein was consistently higher in HCT-15, while that of NCoR and Sin3A was higher in DLD-1 cells. Treatment with the histone deacetvlase inhibitor trichostatin A (TSA) increased both basal and RA-induced betaRARE activity in DLD-1, indicating that histone deacetylase is involved in the regulation of RARbeta gene expression. Taken together, our results show that differential function of coactivators and corepressors may determine the level of RARbeta induction that may mediate retinoid action in colon cancer cells.
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PMID:Role of coactivators and corepressors in the induction of the RARbeta gene in human colon cancer cells. 1239 82


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