Project description:We used RNA sequencing to analyze gene expression profiles of MDA-MB-231 and its brain metastasis variant (231-BR). The goal of this study is to explore genes that are differentially expressed in 231-BR and MDA-MB-231.

Project description:To determine the differentially expressed miRNAs in MDA-MB-231-GATA3 cells vs. MDA-MB-231-Control cells

Project description:To determine the differentially expressed miRNAs in MDA-MB-231-GATA3 cells vs. MDA-MB-231-Control cells Pooled polyclonal cells from MDA-MB-231 breast cancer cells +/- GATA3 over-expression were analyzed for miRNA expression

Project description:Dicer, RNase III endonuclease, is an essential enzyme in miRNA biogenesis that regulates target gene expression, and it has been reported that aberrant expressions of Dicer associate with the clinical outcomes of patients in various cancers. To explore the miRNA differencial expression regulated by Dicer in MDA-MB-231/E1A cells, the microarray profiling analysis was employed to conduct differentially expressed miRNAs in stable MDA-MB-231/vector, MDA-MB-231/E1A, and MDA-MB-231/E1A/shDicer cells.

Project description:Identification of genes that are involved in self-seeding by comparing gene expression profiles between parental MDA-MB-231 cells and seeder cells (MDA-231-S1a and S1b) 2 replicates from each sample (parental MDA-MB-231, MDA-MB-231 S1a and MDA-MB-231 S1b) were analyzed

Project description:Dicer, RNase III endonuclease, is an essential enzyme in miRNA biogenesis that regulates target gene expression, and it has been reported that aberrant expressions of Dicer associate with the clinical outcomes of patients in various cancers. To explore the miRNA differencial expression regulated by Dicer in MDA-MB-231/E1A cells, the microarray profiling analysis was employed to conduct differentially expressed miRNAs in stable MDA-MB-231/vector, MDA-MB-231/E1A, and MDA-MB-231/E1A/shDicer cells. The four groups including vector control, E1A-expressing and Dicer knockdown in E1A-expressing MDA-MB-231 cells were harvested and RNA were isolated. Two independent experiments were performed for each group.

Project description:Breast cancer metastasizes to bone, visceral organs, and/or brain depending on the subtypes. Various cell line models have been used to develop gene expression signatures unique to cancer cells that have metastasized to specific organs, although these efforts were not in a uniform setting. In this study, we compared gene expression pattern in MDA-MB-231 cells and its mammary fat pad tumor (TMD-231), lung metastasis (LMD-231), bone metastasis (BMD-231), adrenal metastasis (ADMD-231) and brain metastasis (231-BR) variants grown under the same growth condition. When gene expression differences between metasteses (p value of <0.01) were compared, 231-BR cells showed the highest gene expression difference (633 genes) followed by ADMD-231 (196 genes), LMD-231 (79 genes), and BMD-231 cells (60 genes) compared with other metastatic cells. 231-BR cells specifically overexpressed neuronal transmembrane proteins SLITRK2, TMEM47, and LYPD1 by more than five fold compared with cells isolated from other sites of metastasis. Ingenuity pathway analysis of differentially expressed genes revealed activation of pathways that would enable cancer cells to adapt to organs of metastasis such as drug detoxification/oxidative stress response/semaphorin neuronal pathway in 231-BR cells, Notch/orphan nuclear receptor signals involved in steroidogenesis in ADMD-231, acute phase response in LMD-231, and cytokine/hematopoietic stem cell signaling in BMD-231 cells. Only NF-κB signaling pathway activation was common to all metastatic cells except BMD-231.To test this possibility, we compared gene expression pattern in MDA-MB-231 cells and its mammary fat pad tumor (TMD-231), lung-metastasis (LMD-231), bone-metastasis (BMD-231), adrenal-metastasis (ADMD-231) and brain-metastasis (231-BR) variants. Between metastatic cells, 231-BR cells showed the highest gene expression difference followed by ADMD-231, LMD-231, and BMD-231 cells. 231-BR cells specifically overexpressed neuronal transmembrane proteins SLITRK2, TMEM47, and LYPD1. pathways that would enable cancer cells to adapt to organs of metastasis such as drug detoxification/oxidative stress response/semaphorin neuronal pathway in 231-BR cells, Notch/orphan nuclear receptor signals involved in steroidogenesis in ADMD-231, acute phase response in LMD-231, and cytokine/hematopoietic stem cell signaling in BMD-231 cells. Only NF-κB signaling pathway activation was common to all metastatic cells except BMD-231.

Project description:Identification of genes that are involved in self-seeding by comparing gene expression profiles between parental MDA-MB-231 cells and seeder cells (MDA-231-S1a and S1b)

Project description:Identification of MUC4-associated expression of genes by comparing MUC4 knockdown (MDA-MB-231-shMUC4) and control (MDA-MB-231-SCR).

Project description:To determine the effect ALDH1A3 expression on global gene expression in MDA-MB-231 cells and MDA-MB-468 cells