Project description:Experiments to test the effect of CtBP2 inhibition on metabolism of breast cell lines. In particular, experiment 1 involves comparison between a normal breast cell line (MCF102A) and a triple-negative breast cancer cell line (MDA-MB231). Experiment 2 is a study between MDA-MB231 silenced for CtBP2 by stable RNA interference (shCtBP2 cells) compared to scramble (shCTRL cells). Experiment 3 is a comparison between a normal breast cell line (MCF102A) and a triple-negative breast cancer cell line (MDA-MB231)in the presence of the absence of small-molecule CtBP inhibitors: HIPP (400 μM) or P4 (300 μM)for 48 hours.

Project description:To study the effect of PIAS1 on transcriptional regulation, we establishedstable PIAS1 shRNA knockdown cells in breast cancer cell line MDA-MB231. By comparing the expression profiles of control vs PIAS1 knockdown cells, we can identify potential PIAS1 target genes involved in breast tumorigenesis. MDA-MB231 Control shRNA and PIAS1 shRNA2 cells were cultured in DMEM plus 10% FBS (DMEM) or SCM for 30 h, and total RNA was used for microarray.

Project description:To study the effect of PIAS1 on transcriptional regulation, we establishedstable PIAS1 shRNA knockdown cells in breast cancer cell line MDA-MB231. By comparing the expression profiles of control vs PIAS1 knockdown cells, we can identify potential PIAS1 target genes involved in breast tumorigenesis.

Project description:We report the H3K27ac status in MDA-MB231 breast cancer cells after knockdown of CDK19 and CDK8.

Project description:Interactions between epithelial cells and their associated stroma, mainly the fibroblasts therein have been implicated in breast malignancy. Our aim was to verify the effect of soluble factors resulting from the co-culture of normal (NAF) or associated breast cancer fibroblasts (CAF) with a normal (MCF-10A) or a metastatic (MDA-MB231) breast epithelial cell line on fibroblast gene expression profiles. Fibroblast primary cultures were established and co-culture of these cell types separated by inserts, which allow the passage of soluble factors, was performed. Total RNA was extracted, amplified and subjected to microarray gene expression profiling using microarrays in which 4,608 ORESTES (open reading frame expressed sequence tags) were spotted. Differentially expressed genes, at a False Discovery Ratio (FDR) less then 0.01 and fold variation greater than 2, were selected. CAF molecular signature was characterized by down regulation of 62% (29/47) of genes as compared to NAF, represented mainly by those related to vesicular transport, cytoskeleton plasticity and cell motility. CAF responded to co-culture with MCF-10A cells by up regulation of 63.5% (89/140) of genes, including those involved with cytoskeleton remodelling, lipid synthesis and members of the PI3K pathway. Contrarywise, MDA-MB231 cells affected the gene expression profile of CAF by down regulation of 65% (102/156) of genes, including those associated to tumor suppression and antiangiogenic potential. Up regulated genes, were mainly implicated with cell cycle progression and proliferation. NAF signature was altered by MDA-MB231 presence resulting in down regulation of suppressor genes, integrins and angiogenic factors, but it was modestly affected by MCF-10A. Keywords: Fibroblasts transcriptome altered by breast cell lines

Project description:RNA-seq data from human MDA-MB231 breast cancer cells expressing control or TRA2B-targeting shRNAs grown for 8 days in 3D culture in matrigel

Project description:Mfng, a modulator of Notch signaling, is highly expressed in human claudin-low breast cancer (CLBC). To determine Mfng’s roles in CLBC pathogenesis,we knocked down Mfng in a CLBC cell line MDA-MB231, and found that Mfng knockdown altered Notch activation, decreased tumor sphere formation in vitro, and reduced tumor growth in xenograft model. To identify the potential downstream targets of Mfng during CLBC tumorigenesis, we compared the gene expression profiles between xenografts tumor derived from of MDA-MB231 cells carrying Mfng shRNA and the control vector. Mfng, a modulator of Notch signaling, is highly expressed in human claudin-low breast cancer (CLBC). To determine Mfng’s roles in CLBC pathogenesis,we knocked down Mfng in a CLBC cell line MDA-MB231, and found that Mfng knockdown caused alteration in Notch activation, associated with decreased tumor sphere formation in vitro, as well as reduced tumor growth in xenograft model. We intend to compare gene expression profiles between xenografts of MDA-MB231 cells carrying Mfng shRNA and the control vector. This project seeks to identify potential downstream targets of Mfng in CLBC.

Project description:To determine the absolute copy number of proteins in MDA-MB231 breast cancer cells, we employed IBAQ mediated absolute quantification of proteins based on (Schwanhäusser et al., Nature, 2011), with some modifications. Maqquant calculated iBAQ values were calibrated using spike-in standards, and used to calculate copy numbers for each identified protein within the dataset. Copy numbers for a total of 3,584 proteins were calculated in MDA-MB231 cells.

Project description:In this work of Kisaki et al, we analyze the variation of proteome responses upon treatment of breast cancer cell lines MCF7 and MDA-MB231 with Bothrops jararaca snake venom

Project description:Goal of this study was to investigate the time-dependent impact of ONC201 on gene expression changes in MDA-MB231, a triple negative breast cancer cell line