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)

Membrane-bound Na+/K(+)-ATPase purified from dog kidney outer medulla was solubilized with octaethylene glycol n-dodecyl ether (C12E8) and incubated with [3H]ouabain in the presence of NaCl. ATP and MgCl2 for 10 min at 0 degrees C. The resulting enzyme was separated, by high-performance gel chromatography executed at 0.2 degrees C. Mainly into its (alpha beta)2-diprotomer and alpha beta-protomer, which both bound stoichiometrically to [3H]ouabain. The amounts of ouabain that bound to the tissue itself and its microsomes could be estimated in the same way, as [3H]ouabain was found to bind only to the diprotomer and protomer they possessed. The amounts of ouabain that bound to them in the solubilized state were at least 5-times higher than those that did so when they were non-solubilized, suggesting that the surfactant rendered the enzyme accessible to ouabain. When the solubilized tissue (138 mg ml-1 wet tissue) was reacted with ouabain in the presence of 0.1 M NaCl and 4.8 mM MgCl2 for 10 min at 0 degrees C, maximal ouabain binding was attained in the presence of 18.3 microM [3H]ouabain, 1.2 mM ATP and 3 to 5 mg ml-1 C12E8, which was common to the outer medulla and human colon cancer cells. The present method enabled the pump number in protein and tissue samples in the range 7.2 x 10(-9) (purified pump) to 1.5 x 10(-12) (cancer tissue) mol/mg protein to be estimated within 2 h.
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PMID:Quantification of the Na+/K(+)-pump in solubilized tissue by the ouabain binding method coupled with high-performance gel chromatography. 749 49

The purpose of this study was to elucidate the mechanism of 201Thallium-chloride (201Tl) uptake in tumor cells and its possible relationship to potassium channels. The subcellular biodistribution of 201Tl in tumor cells was examined in colon cancer (LS180) bearing nude mice using sequential centrifugation. The involvement of potassium channels in 201Tl uptake in tumor cells was examined by uptake inhibition with potassium channel blockers (ouabain, bumetanide, and glibenclamide) in cultured leukemia cells (K562). Greater than 90% of 201Tl was found in the soluble cytoplasmic fraction. 201Tl uptake was inhibited by ouabain and bumetanide but not by glibenclamide. These data demonstrate that 201Tl uptake in tumor cells is mediated by the Na(+)-K+ ATPase and the Na(+)-K(+)-2Cl- cotransporter with 201Tl acting as a potassium analogue.
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PMID:Mechanism of 201thallium-chloride uptake in tumor cells and its relationship to potassium channels. 947 Oct 98

Using an original microcalorimetric method, we previously showed that in erythrocytes from cancer patients, the sodium pump activity was decreased and returned to normal in patient in remission. In addition we suggested that a plasma-borne factor probably secreted by cancer cells accounted for this impairment of the sodium transporter. In the present study we sought to identify this factor as well as its mechanism of action. First we determined the effect of culture media from undifferentiated and differentiated colon cancer cell lines (Caco-2 and HT29-D4) on the sodium pump activity of normal human erythrocytes. The inhibitory powers of culture media from undifferentiated cells were higher than those of differentiated cells (38.6 +/- 3.5% vs 6.9 +/- 4.6%, p<0.05 for Caco-2 and 45.8 +/- 6.2% vs 9.0 +/- 5.0%, <0.05 for HT29-D4). The use of alpha difluoro-methylomithine (2 mM) to inhibit ornithine decarboxylase, the rate-limiting enzyme for polyamine biosynthesis, dramatically reduced the sodium pump inhibition induced by the two undifferentiated cell lines (75% for Caco-2 and 89% for HT29-D4). Polyamines secreted by undifferentiated cells and then taken up by human erythrocytes thus appeared as inhibitors of sodium pump of these red blood cells. Putrescine, spermidine, and spermine (the main polyamines) exerted a similar inhibitory effect (33 +/- 2%). Tested in vitro on Na,KATPase, these polyamines (3 mM) were inhibitors (putrescine = 23 +/- 2%; spermidine= 48 +/- 3%; spermine= 55 +/- 2%) when assay condition for the ATPase reaction was suboptimal (Na+ = 10 mM; K+ = 1 mM). The inhibitory effect appeared to be related to their charge and their aliphatic chain length. The effect of spermidine and spermine on the ionic substrates and ATP-Mg showed that molecules decreased the affinity (Km) of the Na,K-ATPase for Na+ (11.24 +/- 0.49 mM for control vs 23.51 +/- 1.53 mM for spermine and 18.86 +/- 0.98 mM for spermidine), indicating that polyamines exerted their inhibitory effect in a competitive manner.
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PMID:Polyamines secreted by cancer cells possibly account for the impairment of the human erythrocyte sodium pump activity. 1135 5

Hygrolidin family antibiotics showed selective cytotoxicity against both cyclin E- and cyclin A-overexpressing cells. Among them, hygrolidin was the most potent and inhibited growth of solid tumor-derived cell lines such as DLD-1 human colon cancer cells efficiently more than that of hematopoietic tumor cells and normal fibroblasts. FACS analysis revealed that hygrolidin increased cells in G1 and S phases in DLD-1 cells. While hygrolidin decreased amounts of cyclin-dependent kinase (cdk) 4, cyclin D, and cyclin B, it increased cyclin E and p21 levels. Hygrolidin-induced p21 bound to and inhibit cyclin A-cdk2 complex more strongly than cyclin E-cdk2 complex. Furthermore, hygrolidin was found to increase p21 mRNA in DLD-1 cells, but not in normal fibroblasts. Thus, hygrolidin inhibited tumor cell growth through induction of p21. In respect to p21 induction, inhibition of vacuolar-type (H+)-ATPase by hygrolidin was suggested to be involved.
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PMID:Hygrolidin induces p21 expression and abrogates cell cycle progression at G1 and S phases. 1237 37

Bax is a crucial mediator of the mitochondrial pathway for apoptosis, and loss of this proapoptotic Bcl-2 family protein contributes to drug resistance in human cancers. We report here that the endoplasmic reticulum Ca(2+)-ATPase inhibitor thapsigargin (THG) induces apoptosis of human colon cancer HCT116 cells through a Bax-dependent signaling pathway controlling the cytosolic release of mitochondrial apoptogenic molecules. Treating HCT116 cells with THG results in caspase-8 activation; Bid cleavage; Bax conformational change and mitochondrial translocation; the release of cytochrome c, Smac/Diablo, and Omi/HtrA2 into the cytosol; caspase-3 activation; and apoptosis. In contrast, knockout of Bax completely abrogates the full processing/activation of caspase-3 but has no effect on the processing of caspase-8 and the initial cleavage of caspase-3 to p24 fragment after THG treatment. The caspase-8-specific inhibitor z-IETD-fmk, as well as pan-caspase inhibitor z-VAD-fmk, but not the calpain inhibitor E-64d, prevents Bid cleavage, Bax conformational change, and subsequent caspase-3 processing and apoptosis. Caspase-8 processing is dependent on de novo protein synthesis; DR5 expression is strongly up-regulated by THG treatment. Moreover, the absence of Bax blocks THG-induced Omi and Smac release from mitochondria, and expression of cytosolic Omi (GFP-IETD-Omi) or Smac (GFP-IETD-Smac) restores the sensitivity of Bax-knockout HCT116 cells to apoptosis in response to THG treatment. Taken together, our results indicate that Bax-dependent Smac and Omi release plays an essential role in caspase-3 activation and apoptosis induced by THG in human colon cancer HCT116 cells.
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PMID:Bax plays a pivotal role in thapsigargin-induced apoptosis of human colon cancer HCT116 cells by controlling Smac/Diablo and Omi/HtrA2 release from mitochondria. 1267 Aug 94

Beta-catenin has a key role in Wnt signaling via effects on T-cell factor (TCF)-mediated transcription. Mutational defects in beta-catenin regulation are seen in many cancers, leading to elevated beta-catenin levels, enhanced binding of beta-catenin to TCFs, and increased expression of TCF-regulated genes. Factors cooperating with beta-catenin in transcription of TCF-regulated genes are not well defined. TIP49, an ATPase previously implicated as a cofactor for oncogenic transformation by c-Myc, has been shown to bind to beta-catenin. We found that expression of an ATPase-deficient mutant form of TIP49 (TIP49D302N) substantially inhibited beta-catenin-mediated neoplastic transformation of immortalized rat epithelial cells and anchorage-independent growth of human colon cancer cells with deregulated beta-catenin. The TIP49D302N mutant inhibited beta-catenin-mediated activation of TCF-dependent cellular genes. Similar inhibition of the expression of beta-catenin/TCF-dependent genes was seen with small interfering RNA approaches against endogenous TIP49. TIP49 was found in complexes with chromatin remodeling and histone-modifying factors and cofactors, including the TIP60 histone acetylase-associated proteins transactivation/transformation-domain associated protein (TRRAP) and BAF53. Using chromatin immunoprecipitation methods, the TIP49, TIP60, and TRRAP proteins were found to interact with sequences in the regulatory region of the gene for ITF-2, a TCF-dependent cellular gene. The ability of TIP49D302N to inhibit ITF-2 gene expression was linked to decreased acetylation of histones in the vicinity of the TCF-binding sites in the ITF-2 promoter region. We suggest that TIP49 is an important cofactor in beta-catenin/TCF gene regulation in normal and neoplastic cells, likely functioning in chromatin remodeling.
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PMID:TIP49 regulates beta-catenin-mediated neoplastic transformation and T-cell factor target gene induction via effects on chromatin remodeling. 1469 87

Previous studies from our laboratory indicated that expression of the MLH1 DNA mismatch repair (MMR) gene was necessary to restore cytotoxicity and an efficient G(2) arrest in HCT116 human colon cancer cells, as well as Mlh1(-/-) murine embryonic fibroblasts, after treatment with 5-fluoro-2'-deoxyuridine (FdUrd). Here, we show that an identical phenomenon occurred when expression of MSH2, the other major MMR gene, was restored in HEC59 human endometrial carcinoma cells or was present in adenovirus E1A-immortalized Msh2(+/+) (compared with isogenic Msh2(-/-)) murine embryonic stem cells. Because MMR status had little effect on cellular responses (i.e. G(2) arrest and lethality) to the thymidylate synthase inhibitor, Tomudex, and a greater level of [(3)H]FdUrd incorporation into DNA was found in MMR-deficient cells, we concluded that the differential FdUrd cytotoxicity between MMR-competent and MMR-deficient cells was mediated at the level of DNA incorporation. Analyses of ATPase activation suggested that the hMSH2-hMSH6 heterodimer only recognized FdUrd moieties (as the base 5-fluorouracil (FU) in DNA) when mispaired with guanine, but not paired with adenine. Furthermore, analyses of incorporated FdUrd using methyl-CpG-binding domain 4 glycosylase indicated that there was more misincorporated FU:Gua in the DNA of MMR-deficient HCT116 cells. Our data provide the first demonstration that MMR specifically detects FU:Gua (in the first round of DNA replication), signaling a sustained G(2) arrest and lethality.
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PMID:DNA mismatch repair-dependent response to fluoropyrimidine-generated damage. 1561 Oct 52

Guanylyl cyclase C and accumulation of cGMP induced by bacterial heat-stable enterotoxins (STs) promote colon cancer cell cytostasis, serving as a tumor suppressor in intestine. Conversely, capacitative calcium entry through store-operated calcium channels (SOCs) is a key signaling mechanism that promotes colon cancer cell proliferation. The present study revealed that proliferative signaling by capacitative calcium entry through SOCs opposes and is reciprocally coupled to cytostasis mediated by guanylyl cyclase C in T84 human colon carcinoma cells. Elimination of capacitative calcium entry employing 2-aminoethoxydiphenylborate (2-APB), a selective inhibitor of SOCs, potentiated cytostasis induced by ST. Opposition of ST-induced cytostasis by capacitative calcium entry reflects reciprocal inhibition of guanylyl cyclase C signaling. Calcium entry through SOCs induced by the calcium-ATPase inhibitor thapsigargin or the receptor agonists UTP or carbachol inhibited guanylyl cyclase C-dependent cGMP accumulation. This effect was mimicked by the calcium ionophore ionomycin and blocked by 2-APB and intracellular 1,2-bis(o-amino-5,5'-dibromophenoxy)ethane-N,N,N',N'-tetraacetic acid-acetoxymethyl ester (BAPTA-AM), a chelator of calcium. Moreover, regulation by capacitative calcium entry reflected ligand-dependent sensitization of guanylyl cyclase C to inhibition by that cation. Although basal catalytic activity was refractory, ST-stimulated guanylyl cyclase C was inhibited by calcium, which antagonized binding of magnesium to allosteric sites required for receptor-effector coupling. These observations demonstrate that reciprocal regulation of guanylyl cyclase C signaling by capacitative calcium entry through SOCs represents one limb of a coordinated mechanism balancing colon cancer cell proliferation and cytostasis. They suggest that combining guanylyl cyclase C agonists and SOC inhibitors offers a novel paradigm for cGMP-directed therapy and prevention for colorectal tumors.
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PMID:Proliferative signaling by store-operated calcium channels opposes colon cancer cell cytostasis induced by bacterial enterotoxins. 1593 49

Prodigiosin (PG) is a bacterial red pigment with interesting immunosuppressive and apoptotic properties that have been partly attributed to its ability to uncouple V-ATPase through the promotion of the H+/Cl- symporter. In the present study, we investigate the effect of non-apoptotic concentrations of PG on the lysosomal-pH and on cell cycle progression in colon cancer cells. Lysosomal-pH was tested in DLD-1 cells using acridine orange vital staining. Orange granules, indicative of acidified lysosomes, decreased significantly in cells treated with 25 nM of PG for 1/2 h, and disappeared completely at 100 nM. This suggests that PG can induce lysosomal alkalinization without any apparent cytotoxic effect. Cell cycle progression was analysed in HT29 cells and we found that PG induces a blockage in the G1 phase. This blockage correlates with p21(WAF1/CIP1) induction, and it can be triggered either dependently or independently of p53. In conclusion, the reversible increase in lysosomal-pH and cytosol acidification induced by non-apoptotic concentrations of PG in colon cancer cells, suggests that the apoptotic process induced by PG can not be solely explained by changes in intracellular pH. The effect of intracellular acidification on cell cycle arrest must be analysed more exactly.
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PMID:Non-apoptotic concentrations of prodigiosin (H+/Cl- symporter) inhibit the acidification of lysosomes and induce cell cycle blockage in colon cancer cells. 1612 33

Nuclear factor kappa B (NF-kappaB) is a redox-associated transcription factor that is involved in the activation of survival pathways. We have previously shown that deoxycholate (DOC) activates NF-kappaB in hepatocytes and colon epithelial cells and that persistent exposure of HCT-116 cells to increasing concentrations of DOC results in the constitutive activation of NF-kappaB, which is associated with the development of apoptosis resistance. The mechanisms by which DOC activates NF-kappaB in colon epithelial cells, and whether natural antioxidants can reduce DOC-induced NF-kappaB activation, however, are not known. Also, it is not known if DOC can generate reactive oxygen species within mitochondria as a possible pathway of stress-related NF-kappaB activation. Since we have previously shown that DOC activates the NF-kappaB stress-response pathway in HCT-116 cells, we used this cell line to further explore the mechanisms of NF-kappaB activation. We found that DOC induces mitochondrial oxidative stress and activates NF-kappaB in HCT-116 cells through multiple mechanisms involving NAD(P)H oxidase, Na+/K+-ATPase, cytochrome P450, Ca++ and the terminal mitochondrial respiratory complex IV. DOC-induced NF-kappaB activation was significantly (P < 0.05) inhibited by pre-treatment of cells with CAPE, EGCG, TMS, DPI, NaN3, EGTA, Ouabain and RuR. The NF-kappaB-activating pathways, induced by the dietary-related endogenous detergent DOC, provide mechanisms for promotion of colon cancer and identify possible new targets for chemoprevention.
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PMID:Deoxycholate induces mitochondrial oxidative stress and activates NF-kappaB through multiple mechanisms in HCT-116 colon epithelial cells. 1688 64


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