Project description:Salts of aluminium, a chemical element devoid of biological function, are added to many industrial products of frequent use because of aluminium's chemical versatility. As a result of lifetime exposure, aluminium accumulates in several organs including the mammary gland. At concentrations in the range of those measured in the breast of women living in industrialised countries, aluminium chloride transforms human and mouse mammary epithelial cells in vitro. These results challenge the safety commonly ascribed to aluminium and suggest that it could be a human carcinogen. NMuMG is a spontaneously immortalised, non tumorigenic mouse mammary epithelial cell line originally derived from NAMRU mice that, following chronic culture in the presence of aluminium - in the form of AlCl3 x 6H2O - becomes able to form tumors and metastasis in NOD-scid and nude mice. As a part of our investigations on the mechanisms by which aluminium might transform mammary epithelial cells, we analysed the mRNA profile of NMuMG cells transformed in vitro by aluminium or the corresponding untreated controls cultured in parallel by cDNA microarray. We used the Clariom S microarray from Thermofisher, that covers more than 20'000 well annotated mRNAs. The cell culture experiment analyzed in this microarray is referred to as \\"NMuMG series I\\" in the citing manuscript (Mandriota et al., submitted).

Project description:Salts of aluminium, a chemical element devoid of biological function, are added to many industrial products of frequent use because of aluminium's chemical versatility. As a result of lifetime exposure, aluminium accumulates in several organs including the mammary gland. At concentrations in the range of those measured in the breast of women living in industrialised countries, aluminium chloride transforms human and mouse mammary epithelial cells in vitro. These results challenge the safety commonly ascribed to aluminium and suggest that it could be a human carcinogen. NMuMG is a spontaneously immortalised, non tumorigenic mouse mammary epithelial cell line originally derived from NAMRU mice that, following chronic culture in the presence of aluminium - in the form of AlCl3 x 6H2O - becomes able to form tumors and metastasis in NOD-scid and nude mice. As a part of our investigations on the mechanisms by which aluminium might transform mammary epithelial cells, we analysed the mRNA profile of NMuMG cells incubated for 4 weeks - a time duration that precedes cellular transformation - in the presence of aluminium or the corresponding untreated controls cultured in parallel, by cDNA microarray. We used the Clariom S microarray from Thermofisher, that covers more than 20'000 well annotated mRNAs.

Project description:Salts of aluminium, a chemical element devoid of biological function, are added to many industrial products of frequent use because of aluminium's chemical versatility. As a result of lifetime exposure, aluminium accumulates in several organs including the mammary gland. At concentrations in the range of those measured in the breast of women living in industrialised countries, aluminium chloride transforms human and mouse mammary epithelial cells in vitro. These results challenge the safety commonly ascribed to aluminium and suggest that it could be a human carcinogen. HC11 is a spontaneously immortalised, non tumorigenic mouse mammary epithelial cell line originally derived from Balb/c mice that, following chronic culture in the presence of aluminium - in the form of AlCl3 x 6H2O - becomes able to form tumors and metastasis in the immunocompetent and immunocompatible strain Balb/cByJ. As a part of our investigations on the mechanisms by which aluminium might transform mammary epithelial cells, we analysed the mRNA profile of HC11 cells transformed in vitro by aluminium or the corresponding untreated controls cultured in parallel by cDNA microarray. We used the Clariom S microarray from Thermofisher, that covers more than 20'000 well annotated mRNAs.

Project description:Salts of aluminium, a chemical element devoid of biological function, are added to many industrial products of frequent use because of aluminium's chemical versatility. As a result of lifetime exposure, aluminium accumulates in several organs including the mammary gland. At concentrations in the range of those measured in the breast of women living in industrialised countries, aluminium chloride transforms human and mouse mammary epithelial cells in vitro. These results challenge the safety commonly ascribed to aluminium and suggest that it could be a human carcinogen. HC11 is a spontaneously immortalised, non tumorigenic mouse mammary epithelial cell line originally derived from Balb/c mice that, following chronic culture in the presence of aluminium - in the form of AlCl3 x 6H2O - becomes able to form tumors and metastasis in the immunocompetent and immunocompatible strain Balb/cByJ. As a part of our investigations on the mechanisms by which aluminium might transform mammary epithelial cells, we analysed the mRNA profile of HC11 cells incubated for 4 weeks - a time duration that precedes cellular transformation - in the presence of aluminium or the corresponding untreated controls cultured in parallel, by cDNA microarray. We used the Clariom S microarray from Thermofisher, that covers more than 20'000 well annotated mRNAs.

Project description:We have developed a progression series of increasingly metastatic cell lines generated from the normal mammary epithelial cell line, NMuMG, to distinguish between early changes in cancer initiation and metastasis-promoting alterations.

Project description:Smad2/3 binding regions in mouse mammary gland epithelial cells (NMuMG) treated with TGF-beta for 1.5 h were determined by ChIP-seq to evaluate the transcriptional mechanism of TGF-beta-Smad signaling.

Project description:Response of mouse mammary epithelial cells NMuMG to TGF-b1 - time course experiment. Identification of novel gene targets involved in TGF-b1-driven regulation of epithelial-mesenchymal transition (EMT).

Project description:Expression profiling after Sox4 knockdown (KD) during epithelial to mesenchymal transition (EMT) in NMuMG reveals a significant number of genes that are transcriptionally deregulated.

Project description:Expression profiling after Sox4 knockdown (KD) during epithelial to mesenchymal transition (EMT) in NMuMG reveals a significant number of genes that are transcriptionally deregulated. Gene expression profiling is performed in Sox4-ablated (siSox4) NMuMG cells. Cells transfected with siControl is used as a control. The cells were either treated with transforming growth factor-beta (TGFβ; 2ng/ml) or not.

Project description:EPR, a lncRNA present in the chromatin fraction of NMuMG cells, controls proliferation and fate determination in mammary gland cells. We wanted to define if EPR overexpression in NMuMG cells affects the landcape of two histone activation marks (H3K4me3 and H3K27ac).