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Colon Carcinoma Cell Line (colon + carcinoma_cell_line)

Distribution by Scientific Domains
Medical Sciences44%
Chemistry44%

Kinds of Colon Carcinoma Cell Line

  • human colon carcinoma cell line
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    Selected Abstracts

    Efficient killing of SW480 colon carcinoma cells by a signal transducer and activator of transcription (STAT) 3 hairpin decoy oligodeoxynucleotide , interference with interferon-,-STAT1-mediated killing

    FEBS JOURNAL, Issue 9 2009
    Ali Tadlaoui Hbibi
    The signal transducers and activators of transcription (STATs) convey signals from the membrane to the nucleus in response to cytokines or growth factors. STAT3 is activated in response to cytokines involved mostly in cell proliferation; STAT1 is activated by cytokines, including interferon-,, involved in defence against pathogens and the inhibition of cell proliferation. STAT3, which is frequently activated in tumour cells, is a valuable target with respect to achieving inhibition of tumour cell proliferation. Indeed, its inhibition results in cell death. We previously observed that inhibition of the transcription factor nuclear factor-,B, a key regulator of cell proliferation, with decoy oligodeoxynucleotides results in cell death. We used a similar approach for STAT3. A hairpin STAT3 oligodeoxynucleotide was added to a colon carcinoma cell line in which it induced cell death as efficiently as the STAT3 inhibitor stattic. The hairpin STAT3 oligodeoxynucleotide co-localized with STAT3 within the cytoplasm, prevented STAT3 localization to the nucleus, blocked a cyclin D1 reporter promoter and associated with STAT3 in pull-down assays. However, the same cells were efficiently killed by interferon-,. This effect was counteracted by the STAT3 oligodeoxynucleotide, which was found to efficiently inhibit STAT1. Thus, although it can inhibit STAT3, the hairpin STAT3 oligodeoxynucleotide appears also to inhibit STAT1-mediated interferon-, cell killing, highlighting the need to optimize STAT3-targeting oligodeoxynucleotides. [source]

    Mass spectrometric detection of tyrosine sulfation in human pancreatic trypsinogens, but not in tumor-associated trypsinogen

    FEBS JOURNAL, Issue 2 2008
    Outi Itkonen
    Trypsinogen-1 and -2 are well-characterized enzymes that are expressed in the pancreas and also in several other tissues. Many cancers produce trypsinogen isoenzymes that differ from the pancreatic ones with respect to substrate specificity and isoelectric point. These tumor-associated trypsinogens play a pivotal role in cancer progression and metastasis. The differences between these and the pancreatic isoenzymes have been suggested to be caused by post-translational modification, either sulfation or phosphorylation of a tyrosine residue. We aimed to elucidate the cause of these differences. We isolated trypsinogens from pancreatic juice and conditioned medium from a colon carcinoma cell line. Intact proteins, and tryptic and chymotryptic peptides were characterized by electrospray ionization mass spectrometry. We also used immunoblotting with antibody against phosphotyrosine and N-terminal sequencing. The results show that pancreatic trypsinogen-1 and -2 are sulfated at Tyr154, whereas tumor-associated trypsinogen-2 is not. Detachment of a labile sulfogroup could be demonstrated by both in-source dissociation and low-energy collision-induced dissociation in a tandem mass spectrometer. Tyrosine sulfation is an ubiquitous protein modification occurring in the secretory pathway, but its significance is often underestimated due to difficulties in its analysis. Sulfation is an almost irreversible modification that is thought to regulate protein,protein interactions and the activity of proteolytic enzymes. We conclude that the previously known differences in charge, substrate specificity and inhibitor binding between pancreatic and tumor-associated trypsinogens are probably caused by sulfation of Tyr154 in pancreatic trypsinogens. [source]

    2,-Deoxyadenosine causes apoptotic cell death in a human colon carcinoma cell line

    JOURNAL OF BIOCHEMICAL AND MOLECULAR TOXICOLOGY, Issue 6 2003
    Michela Giannecchini
    Abstract The combination of 2,-deoxyadenosine and 2,-deoxycoformycin is toxic for the human colon carcinoma cell line LoVo. In this study we investigated the mode of action of the two compounds and have found that they promote apoptosis. The examination by fluorescence microscopy of the cells treated with the combination revealed the characteristic morphology associated with apoptosis, such as chromatin condensation and nuclear fragmentation. The occurrence of apoptosis was also confirmed by the release of cytochrome c and the proteolytic processing of procaspase-3 in cells subjected to the treatment. To exert its triggering action on the apoptotic process, 2,-deoxyadenosine enters the cells through an equilibrative nitrobenzyl-thioinosine-insensitive carrier, and must be phosphorylated by intracellular kinases. Indeed, in the present work we demonstrate by analysis of the intracellular metabolic derivatives of 2,-deoxyadenosine that, as suggested by our previous findings, in the incubation performed with 2,-deoxyadenosine and 2,-deoxycoformycin, an appreciable amount of dATP was formed. Conversely, when also an inhibitor of adenosine kinase was added to the incubation mixture, dATP was not formed, and the toxic and apoptotic effect of the combination was completely reverted. © 2003 Wiley Periodicals, Inc. J Biochem Mol Toxicol 17:329,337, 2003; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/jbt.10095 [source]

    Transcellular transport of genistein, a soybean-derived isoflavone, across human colon carcinoma cell line (Caco-2)

    BIOPHARMACEUTICS AND DRUG DISPOSITION, Issue 1 2001
    Masataka Oitate
    Abstract Genistein, a soybean-derived isoflavone, is thought to have an anticarcinogenic action, but little is known about the cellular mechanisms of its intestinal absorption. This study was designed to investigate the absorption mechanisms of genistein using human colon carcinoma cell line, Caco-2 cells. The apical-to-basolateral transcellular transport of genistein across a Caco-2 cell monolayer was significantly greater than that in the opposite direction. An uptake experiment revealed that cellular uptake of genistein by Caco-2 cells was concentrative. The transcellular transport of genistein was saturable and temperature-dependent, and was inhibited by other flavonoids such as rutin, quercetin, (+)-catechin and (,)-epicatechin. These results suggest that genistein is transported across Caco-2 cells by a carrier-mediated system, located on the apical membrane. Copyright © 2001 John Wiley & Sons, Ltd. [source]

    Rectal washout with cytotoxic solution can be extended to the whole colon

    BRITISH JOURNAL OF SURGERY (NOW INCLUDES EUROPEAN JOURNAL OF SURGERY), Issue 12 2002
    P. P. Mariani
    Background: Rectal irrigation with a cytotoxic agent does not kill viable intraluminal cancer cells proximal to the primary tumour. To prevent implantation of these cells at the time of restorative proctectomy, the feasibility of retrograde whole-colon irrigation just before surgery was explored. Methods: The cytotoxic efficacy of different combinations of povidone,iodine (PVPI) and Gastrografin was tested with the trypan blue exclusion test on a human colon carcinoma cell line (SW620) in vitro. Subsequently, a retrograde whole-colon lavage with PVPI 5 per cent and Gastrografin 12 per cent was performed in 14 euthyroid, non-allergic patients with colorectal cancer using a colostomy irrigation set. Thyroid function and mucosal damage were assessed. Results: It took 2 min and approximately 1 litre of infused solution to reach the caecum in all patients. The solution was 100 per cent tumoricidal in vitro and remained so after colonic irrigation. Total serum tri-iodothyronine (T3) levels decreased and those of reverse T3 increased, but normalized after 1 week. Superficial epithelial desquamation was observed shortly after irrigation; however, complete restoration occurred within 7 days. Conclusion: A rectal washout can easily be extended to a retrograde irrigation of the whole colon in elective colorectal cancer surgery. This may help to prevent anastomotic and local recurrence due to implantation of viable exfoliated tumour cells. © 2002 British Journal of Surgery Society Ltd [source]

    Sodium butyrate modulates cell cycle-related proteins in HT29 human colonic adenocarcinoma cells

    CELL PROLIFERATION, Issue 3 2000
    D. Coradini
    Sodium butyrate (NaB), a product of colonic fermentation of dietary fibre, has been shown to inhibit cell proliferation by blocking cells in the G0/G1 phase of the cell cycle through a mechanism of action still not completely understood. We investigated the effect of NaB on the level of some G1 phase-related proteins in a colon carcinoma cell line (HT29). In particular, we addressed our attention to cyclin D1 (the key regulator of G1S progression), p21waf1/cip1 (the main inactivator of the cyclin D/cdk complex), and p53 (the most important regulator of p21waf1/cip1 gene transcription). At inhibitory concentrations (higher than 1 mM) NaB reduced cyclin D1 and p53 level in a dose-dependent manner and sustained the synthesis of p21waf1/cip1, probably in a p53-independent way, accounting for the G0/G1 block observed by flow cytometry. Present results provide further evidence on the molecular mechanism at the basis of the physiological role of NaB and support the hypothesis that an unbalanced diet, poor in carbohydrates and therefore in NaB, could result in functional alterations with clinical and carcinogenic implications. [source]

    Group IID heparin-binding secretory phospholipase A2 is expressed in human colon carcinoma cells and human mast cells and up-regulated in mouse inflammatory tissues

    FEBS JOURNAL, Issue 11 2002
    Makoto Murakami
    Group IID secretory phospholipase A2 (sPLA2 -IID), a heparin-binding sPLA2 that is closely related to sPLA2 -IIA, augments stimulus-induced cellular arachidonate release in a manner similar to sPLA2 -IIA. Here we identified the residues of sPLA2 -IID that are responsible for heparanoid binding, are and therefore essential for cellular function. Mutating four cationic residues in the C-terminal portion of sPLA2 -IID resulted in abolition of its ability to associate with cell surface heparan sulfate and to enhance stimulus-induced delayed arachidonate release, cyclooxygenase-2 induction, and prostaglandin generation in 293 cell transfectants. As compared with several other group II subfamily sPLA2s, which were equally active on A23187- and IL-1-primed cellular membranes, sPLA2 -IID showed apparent preference for A23187-primed membranes. Several human colon carcinoma cell lines expressed sPLA2 -IID and sPLA2 -X constitutively, the former of which was negatively regulated by IL-1. sPLA2 -IID, but not other sPLA2 isozymes, was expressed in human cord blood-derived mast cells. The expression of sPLA2 -IID was significantly altered in several tissues of mice with experimental inflammation. These results indicate that sPLA2 -IID may be involved in inflammation in cell- and tissue-specific manners under particular conditions. [source]

    Inhibition of human telomerase reverse transcriptase by nonsteroidal antiinflammatory drugs in colon carcinoma

    CANCER, Issue 6 2006
    Hua He M.Phil.
    Abstract BACKGROUND Telomerase activation, which is observed in most human cancers, plays an important role in carcinogenesis. Human telomerase reverse transcriptase (hTERT) is a subunit of telomerase that is essential for telomerase activity. The aim of the study was to investigate whether nonsteroidal antiinflammatory drugs (NSAIDs) inhibit telomerase activity and hTERT. METHODS Four colon carcinoma cell lines, HT-29, COLO205, CRL-2134, and SW1116, were used in the experiments. Polymerase chain reaction-based telomeric repeat amplification (TRAP) enzyme-linked immunosorbent assay (ELISA) was used to measure telomerase activity in the cells after treatment with aspirin, indomethacin, or SC-236 (a specific cyclooxygenase-2 [COX-2] inhibitor). Expression of hTERT mRNA and protein was detected by reverse transcription,polymerase chain reaction (RT-PCR) and Western blotting, respectively. The dual luciferase reporter assay was performed to identify the potential cis-response elements to NSAIDs in the promoter region of hTERT. RESULTS Aspirin, indomethacin, and SC-236 inhibited telomerase activity in HT-29, COLO205, and CRL-2134 cell lines, but not in the SW1116 cell line. NSAIDs inhibited hTERT mRNA and protein expression through suppression of hTERT transcriptional activity. The hTERT promoter fragment ,145 to ,330 basepairs (bp) upstream of the ATG starting site was sufficient to respond to the NSAID-induced inhibitory effect and the inhibition was COX-2-independent. CONCLUSION NSAIDs inhibit telomerase activity at hTERT transcriptional, mRNA, and protein levels in colon carcinoma cells. The hTERT promoter fragment ,145 to ,330 bp may be the cis-response element to NSAIDs. Cancer 2006. © 2006 American Cancer Society. [source]