108 research outputs found
Cadmium accumulation and interactions with zinc, copper, and manganese, analysed by ICP-MS in a long-term Caco-2 TC7 cell model
The influence of long-term exposure to cadmium (Cd) on essential minerals was investigated using a Caco-2
TC7 cells and a multi-analytical tool: microwave digestion and inductively coupled plasma mass spectrometry.
Intracellular levels, effects on cadmium accumulation, distribution, and reference concentration
ranges of the following elements were determined: Na, Mg, Ca, Cr, Fe, Mn, Co, Ni, Cu, Zn, Mo, and Cd.
Results showed that Caco-2 TC7 cells incubated long-term with cadmium concentrations ranging from 0 to
10 lmol Cd/l for 5 weeks exhibited a significant increase in cadmium accumulation. Furthermore, this
accumulation was more marked in cells exposed long-term to cadmium compared with controls, and that
this exposure resulted in a significant accumulation of copper and zinc but not of the other elements
measured. Interactions of Cd with three elements: zinc, copper, and manganese were particularly studied.
Exposed to 30 lmol/l of the element, manganese showed the highest inhibition and copper the lowest on
cadmium intracellular accumulation but Zn, Cu, and Mn behave differently in terms of their mutual
competition with Cd. Indeed, increasing cadmium in the culture medium resulted in a gradual and significant
increase in the accumulation of zinc. There was a significant decrease in manganese from 5 lmol
Cd/l exposure, and no variation was observed with copper.
Abbreviation: AAS – Atomic absorption spectrometry; CRM– Certified reference material; PBS – Phosphate
buffered saline without calcium and magnesium; DMEM – Dubelcco’s modified Eagle’s medium
d-glucosamine-induced changes in nucleotide metabolism and growth of colon-carcinoma cells in culture
Protein Kinase C Activation Has Distinct Effects on the Localization, Phosphorylation and Detergent Solubility of the Claudin Protein Family in Tight and Leaky Epithelial Cells
We have previously shown that protein kinase C (PKC) activation has distinct effects on the structure and barrier properties of cultured epithelial cells (HT29 and MDCK I). Since the claudin family of tight junction (TJ)-associated proteins is considered to be crucial for the function of mature TJ, we assessed their expression patterns and cellular destination, detergent solubility and phosphorylation upon PKC stimulation for 2 or 18 h with phorbol myristate acetate (PMA). In HT29 cells, claudins 1, 3, 4 and 5 and possibly claudin 2 were redistributed to apical cell–cell contacts after PKC activation and the amounts of claudins 1, 3 and 5, but not of claudin 2, were increased in cell lysates. By contrast, in MDCK I cells, PMA treatment resulted in redistribution of claudins 1, 3, 4 and 5 from the TJ and in reorganization of the proteins into more insoluble complexes. Claudins 1 and 4 were phosphorylated in both MDCK I and HT29 cells, but PKC-induced changes in claudin phosphorylation state were detected only in MDCK I cells. A major difference between HT29 and MDCK I cells, which have low and high basal transepithelial electrical resistance, respectively, was the absence of claudin 2 in the latter. Our findings show that PKC activation targets in characteristic ways the expression patterns, destination, detergent solubility and phosphorylation state of claudins in epithelial cells with different capacities to form an epithelial barrier
The PTEN Phosphatase Controls Intestinal Epithelial Cell Polarity and Barrier Function: Role in Colorectal Cancer Progression
The PTEN phosphatase acts on phosphatidylinositol 3,4,5-triphosphates resulting from phosphatidylinositol 3-kinase (PI3K) activation. PTEN expression has been shown to be decreased in colorectal cancer. Little is known however as to the specific cellular role of PTEN in human intestinal epithelial cells. The aim of this study was to investigate the role of PTEN in human colorectal cancer cells.Caco-2/15, HCT116 and CT26 cells were infected with recombinant lentiviruses expressing a shRNA specifically designed to knock-down PTEN. The impact of PTEN downregulation was analyzed on cell polarization and differentiation, intercellular junction integrity (expression of cell-cell adhesion proteins, barrier function), migration (wound assay), invasion (matrigel-coated transwells) and on tumor and metastasis formation in mice. Electron microscopy analysis showed that lentiviral infection of PTEN shRNA significantly inhibited Caco-2/15 cell polarization, functional differentiation and brush border development. A strong reduction in claudin 1, 3, 4 and 8 was also observed as well as a decrease in transepithelial resistance. Loss of PTEN expression increased the spreading, migration and invasion capacities of colorectal cancer cells in vitro. PTEN downregulation also increased tumor size following subcutaneous injection of colorectal cancer cells in nude mice. Finally, loss of PTEN expression in HCT116 and CT26, but not in Caco-2/15, led to an increase in their metastatic potential following tail-vein injections in mice.Altogether, these results indicate that PTEN controls cellular polarity, establishment of cell-cell junctions, paracellular permeability, migration and tumorigenic/metastatic potential of human colorectal cancer cells
Displayed correlation between gene expression profiles and submicroscopic alterations in response to cetuximab, gefitinib and EGF in human colon cancer cell lines
Background: EGFR is frequently overexpressed in colon cancer. We characterized HT-29 and
Caco-2, human colon cancer cell lines, untreated and treated with cetuximab or gefitinib alone and
in combination with EGF.
Methods: Cell growth was determined using a variation on the MTT assay. Cell-cycle analysis was
conducted by flow cytometry. Immunohistochemistry was performed to evaluate EGFR expression
and scanning electron microscopy (SEM) evidenced the ultrastructural morphology. Gene
expression profiling was performed using hybridization of the microarray Ocimum Pan Human 40
K array A.
Results: Caco-2 and HT-29 were respectively 66.25 and 59.24 % in G0/G1. They maintained this
level of cell cycle distribution after treatment, suggesting a predominantly differentiated state.
Treatment of Caco-2 with EGF or the two EGFR inhibitors produced a significant reduction in their
viability. SEM clearly showed morphological cellular transformations in the direction of cellular death in both cell lines treated with EGFR inhibitors. HT-29 and Caco-2 displayed an important
reduction of the microvilli (which also lose their erect position in Caco-2), possibly invalidating
microvilli absorption function. HT-29 treated with cetuximab lost their boundary contacts and
showed filipodi; when treated with gefitinib, they showed some vesicles: generally membrane
reshaping is evident. Both cell lines showed a similar behavior in terms of on/off switched genes
upon treatment with cetuximab. The gefitinib global gene expression pattern was different for the
2 cell lines; gefitinib treatment induced more changes, but directly correlated with EGF treatment.
In cetuximab or gefitinib plus EGF treatments there was possible summation of the morphological
effects: cells seemed more weakly affected by the transformation towards apoptosis. The genes
appeared to be less stimulated than for single drug cases.
Conclusion: This is the first study to have systematically investigated the effect of cetuximab or
gefitinib, alone and in combination with EGF, on human colon cancer cell lines. The EGFR inhibitors
have a weaker effect in the presence of EGF that binds EGFR. Cetuximab treatment showed an
expression pattern that inversely correlates with EGF treatment. We found interesting cytomorphological
features closely relating to gene expression profile. Both drugs have an effect on
differentiation towards cellular death
The posttranslational processing of sucrase-isomaltase in HT-29 cells is a function of their state of enterocytic differentiation.
Occurrence and kinetics of glycogen levels in the epidermal cells of grafted and cultured skin in mice.
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