ABSTRACT: Stem cell gene expression profiling of primary mammary tumors derived from orthotopic xenograft tumors treated with Sulforaphane (SFN) or control II
Project description:Stem cell gene expression profiling of primary mammary tumors derived from orthotopic xenograft tumors treated with Sulforaphane (SFN) or control
Project description:Stem cell gene expression profiling of primary mammary tumors derived from orthotopic xenograft tumors treated with Sulforaphane (SFN) or control I
Project description:In this study, we explored stem cell markers profile of mammary tumor initiation and growth derived from a human breast cancer cell line (MDA-MB-231 D3H1 Luci). In this dataset, we include expression data from primary mammary tumors pre-treated with Sulforaphane for 2 weeks (daily i.p. injection of 50mg SFN/kg) and kept treatment after cell injection for more 3 weeks and Saline 0.9% as a Control.
Project description:In this study, we explored stem cell markers profile of mammary tumor initiation and growth derived from a human breast cancer cell line (MDA-MB-231 D3H1 Luci). In this dataset, we include expression data from primary mammary tumors pre-treated with Sulforaphane for 2 weeks (daily i.p. injection of 50mg SFN/kg) and kept treatment after cell injection for more 3 weeks and Saline 0.9% as a Control.
Project description:Using the orthotopic breast cancer xenograft model of basal-like breast cancer MDA-MB-231 line, we have found that the expression of miRNAs encoded by MIR17HG was significantly decreased in cells isolated from spontaneous lung metastases compared to cells from primary tumors grown in orthotopic sites. We investigated the role of a MIR17HG family member, miR-18a, in primary tumor growth and pulmonary metastasis from the orthotopic site. We demonstrated that enforced expression of exogenous miR-18a, significantly limited continuous growth of primary tumors in mammary gland fat pads and reduced spontaneous lung metastasis. Further investigation on the mechanism of miR-18a action led to the finding that the expression of HIF1A, a key regulator of tumor metastasis, was regulated by miR-18a. Enforced miR-18a expression significantly decreased HIF1A expression at both mRNA and protein levels, resulting in altered transcriptional response and decreased survival of cells in response to Cobalt(II) chloride (CoCl2), a hypoxia-mimicking agent. Conversely, miR-18a knockdown significantly increased HIF1A expression levels and enhanced cell survival in response to CoCl2. Analysis of expression data of human breast tumor tissues showed that miR-18a expression is inversely correlated with HIF1A expression in basal-like breast tumors, supporting a role of miR-18a in restricting HIF1A expression in this subtype of breast cancer. In addition, we demonstrated that hypoxia inhibits miR-18a expression, likely through MYC inactivation. Furthermore, gene expression and functional analysis revealed that miR-18a also plays a role in regulating cell adhesion, migration and invasion. Taken together, this study provides evidence for a novel role of miR-18a to inhibit breast cancer metastasis. Our results suggest that miR-18a downregulation might provide tumor cells survival/growth advantage under hypoxic pressure in basal-like breast cancer. A lung metastatic subline, designated as MB231RN-LM, was derived from MDA-MB-231 breast cancer cells through in vivo selection. The MB231RN-LM cells were stably transfected with has-miR-18a or control vector and treated with 200uM Cobalt(II) chloride (CoCl2, a hypoxia-mimicking agent) for 4 hr. A total of 8 samples were subjected to microarray analysis, with two biological repeats for each experiment condition.
Project description:cMET is a well known oncogene whose activation is widely implicated in tumorigenesis and metastasis. To investigate the effects of acute inhibitoin of cMET signaling in the mammary tumors, we inhibited cMET activation in xenograft mammary tumors that were derived from a MET amplified mouse mammary tumor cell line and analyzed the transcriptional alteration between vehicle and MET inhibitor treated tumors.
Project description:RNA-sequencing analysis of control and SMYD3-knockdown MDA-MB-231 tumors from the mammary glands of orthotopic xenograft NOD/SCID mice. SMYD3 (also known as KMT3E), a hisone H3 lysine K4 methyltransferase, is highly expressed in several human cancers, including colorectal and breast carcinomas. Results provide insight into the transcriptional regulation of SMYD3 in breast cancer.
Project description:Isocitrate dehydrogenase 1 (IDH1) is mutated in >70% of these tumors, making it an attractive therapeutic target. To determine the efficacy of our newly developed mutant IDH1 inhibitor, SYC-435 (1-hydroxypyridin-2-one), we treated orthotopic glioma xenograft model (IC-BT142AOA) carrying R132H mutation and our newly established orthotopic patient-derived xenograft (PDX) model of recurrent anaplastic oligoastrocytoma (IC-V0914AOA) bearing R132C mutation. In addition to suppressing IDH1 mutant cell proliferation in vitro, SYC-435 (15 mg/kg, daily x 28 days) synergistically prolonged animal survival times with standard therapies (Temozolomide + fractionated radiation) mediated by reduction of H3K4/H3K9 methylation and expression of mitochondrial DNA (mtDNA)-encoded molecules. Furthermore, RNA-seq of the remnant tumors identified genes (MYO1F, CTC1 and BCL9) and pathways (base excision repair, TCA cycle II, sirtuin signaling, protein kinase A, eukaryotic initiation factor 2 and α-adrenergic signaling) as mediators of therapy resistance.
Project description:Analysis of ferroptosis markers from cells isolated from neuroblastoma orthotopic xenograft mouse model. We combine simultaneous inhibition of cysteine uptake and transsulfuration in xenograft model using SK-N-DZ cell line. We treated the mice with IKE and PPG together with genetic targeting of GPX4 activity. At the end of the treatment, transcriptional profiling of residual small tumors revealed induction of ferroptosis markers after combined inhibition of cystine uptake/cysteine synthesis and GPX4 as compared to tumors treated with vehicle control.
Project description:We kept a primary xenograft models (KURC;Kyoto University Renal Cancer-3) derived from human renal cell carcinoma tissues, and 10 mg/kg of temsirolimus or vehicle was intraperitoneally administered.We performed DNA methylation analysis to compare the methylation profile of temsirolimus-treated primary xenograft tumors with that of vehicle-treated.