The cells (2

The cells (2.5 103 per well) were suspended in 1 mL of 0.5% Matrigel in complete culture medium and plated on top of a 100% Matrigel base layer (0.5 mL) in 24-well plates. Cx43 content was lower in tumorspheres and ALDH-positive cells than in bulk cells. These results demonstrate that Cx43 can reverse several neoplastic characteristics and reduce the abundance of human lung CSCs. = 3 replicate experiments); (B) scrape-loading/dye-transfer assay for GJIC showing Lucifer Yellow-fluorescent dye-loaded cells (top panels) and bright field images (bottom panels), scale bars: 400 m; (C) quantification of average number of dye-loaded cells perpendicular to the scrape (* < 0.01, Students = 4 replicate experiments); (D) fluorescent fluorescein isothiocyanate (FITC) immunostaining of Cx43 with 4,6-diamidino-2-phenylindole (DAPI) staining of nuclei, scale bars: 200 m. Correspondingly, E-cadherin and -catenin were more organized and localized around the periphery of H125-CX43 cells compared to diffuse Rabbit Polyclonal to ATP5A1 cytoplasmic staining in H125-NEO cells (Physique 2A). Western blots indicated both cell lines expressed comparable amounts of the proteins (Physique 2B,C). These results indicate Cx43 is usually localized to the plasma membrane, forms functional gap junctions, and induces a more epithelial-like morphology when expressed in H125 cells. This suggests that a mesenchymal-to-epithelial (MET) change occurred in the Cx43-expressing cells, although additional studies are necessary to verify this. Open in a separate window Physique 2 Localization and expression of E-cadherin and -catenin in H125 cells. (A) Fluorescent FITC immunostaining of E-cadherin and -catenin with DAPI staining of nuclei, scale bars: 200 m; (B) Western blots of E-cadherin and -catenin and (C) densitometric analysis of band densities normalized to tubulin loading control and to H125-NEO cells (no statistically significant Lauric Acid differences; one-sample t-test, mean S.D., = 3 replicate experiments). 2.2. Proliferation of the Transfected Cells The proliferation of these cells on standard plastic tissue culture dishes was decided over 10 days (Physique 3A). The cells initially exhibited a similar rate of logarithmic growth over the first 3 days, but as culture density increased, H125-CX43 cell growth slowed and plateaued at an approximately 50% lower final density than H125-NEO cells. These data suggest Cx43 reduces proliferation when cells begin forming extensive contacts, but does not affect proliferation rates (doubling times) at lower density. This may be due to increased GJIC as cell density increases [22,23]. Open in a separate window Physique 3 Connexin43 reduces the proliferation of H125 cells. (A) Growth of H125-NEO and H125-CX43 cells on plastic (mean S.D., = 4 replicate experiments), (B) in soft agar, and (C) in Matrigel (scale bars: 1000 m). (D) The number and types of colonies obtained after growth in Matrigel were enumerated. (B,D) * < Lauric Acid 0.01 compared to H125-NEO, Students = 3 replicate experiments. The ability of cells to grow in soft agar unattached to a solid substrate often correlates with neoplastic transformation [24]. H125-NEO cells Lauric Acid formed numerous large colonies in soft agar whereas H125-Cx43 cells showed a much reduced capability (Physique 3B). This suggests Cx43 suppresses neoplastic transformation in these cells. Neoplastic cells may also exhibit altered growth morphologies when cultured in Lauric Acid an extracellular matrix compared to growth on plastic culture dishes. When H125-NEO and H125-CX43 cells were grown in culture medium that contained 0.5% Matrigel, numerous colonies of various size and shape arose (Determine 3C). There was no significant difference in the total number of colonies between the two cell types, but H125-CX43 cells generated fewer colonies with a stellate pattern of growth (Physique 3C,D). 2.3. Wound Closure and Invasion Assays The ability of cells to repair a scratch or wound in a monolayer culture over 24 h is usually predominantly due to the migratory capacity of the cells into the wound [25]. The H125-CX43 cells exhibited significantly decreased Lauric Acid wound repair compared to H125-NEO cells. The latter completely repopulated the wound within 24 h whereas H125-CX43 cells covered only approximately 60% of the wound (Physique 4A,B). Open in a separate window Physique 4 Connexin43 suppresses the migration and invasion of H125 cells. (A,B) Scratch assay of H125-NEO and H125-CX43 cells (scale bars: 1000 m). (C,D) Matrigel transwell invasion with these cells (scale bars: 1000 m). * < 0.01 compared to H125-NEO, Students = 3 replicate experiments. Cell invasion through an extracellular matrix in vitro is usually suggestive of a high propensity for metastasis [25]. The H125 cell line was developed from a metastatic tumor in the skin [26] and, therefore, would be expected to be invasive in a matrix invasion assay. Accordingly, H125-NEO cells showed invasive ability through Matrigel, but this capacity was nearly absent in H125-CX43 cells (Physique 4C,D). 2.4. Cisplatin Sensitivity and Resistance The expression of connexins and GJIC has been associated with increased sensitivity to cisplatin and other cytotoxic drugs, in.