Project description:Transcriptional profiling of J774.1 cells comparing control (DMSO treatment) with IR or TAM or Torin1 treated cells.

Project description:To further analyze the change of microRNA(miRNA) between normal peritoneal macrophage(PEC) and TAM from early tumor(12 days after 4T1 cell injection) or TAM from late tumor(21 days after 4T1 cell injection) , we employed Agilent mouse microRNA microarray Rel 12.0 as a discovery platform to identify miRNAs Total RNA from peritoneal macrophage and TAM of early tumor (tumor formed for 12days after BALB/c mice injected wth 4T1 cell) or TAM of late tumor(tumor formed for 21days after BALB/c mice injected with 4T1 cell) were extracted and analyzed using Agilent mouse microRNA microarray platform, and changes of miRNA were screened out. Agilent mouse microRNA microarray is designed for the profiling of mouse miRNA .627 mouse miRNA and 39 mouse virus-related miRNA can be detected by our microRNA microarray.

Project description:To further analyze the change of microRNA(miRNA) between normal peritoneal macrophage(PEC) and TAM from early tumor(12 days after 4T1 cell injection) or TAM from late tumor(21 days after 4T1 cell injection) , we employed Agilent mouse microRNA microarray Rel 12.0 as a discovery platform to identify miRNAs

Project description:To identify the influence of IR-61 on macrophage gene expression , we have employed whole genome microarray expression profiling as a discovery platform to identify genes expression changes. RAW264.7 cell line was treated with additional 10μm IR-61 or vehicle control for 24 h and then conducted further experiments

Project description:Molecular profiling was used to classify mammary tumors that develop in MTB-IGFIR transgenic mice. It was determined that the primary mammary tumors (PMT), which develop due to elevated expression of the type I insulin-like growth factor receptor (IGF-IR) in mammary epithelial cells, most closely resemble murine tumors with basal-like or mixed gene expression profiles and with human basal-like breast cancers. Downregulation of IGF-IR transgene in MTB-IGFIR tumor-bearing mice leads to the regression of most of the tumors followed by tumor re-appearance in some of the mice. These tumors that re-appear following IGF-IR transgene downregulation do not express the IGF-IR transgene and cluster with murine mammary tumors that express a mesenchymal gene expression profile and with human claudin-low breast cancers. Therefore, IGF-IR overexpression in murine mammary epithelial cells induces mammary tumors with primarily basal-like characteristics while tumors that develop following IGF-IR downregulation express a gene signature that most closely resembles human claudin-low breast tumors.

Project description:m6A RNA methylation and transcriptome profiling in were performed HEK293E cells following treatment with Torin1

Project description:microRNAs expression of rat liver tissue comparing ischemia-reperfusion (IR) group with ischemic postconditioning(iPoC) group

Project description:Gene expression was analyzed in peritoneal macrophages and TAM from mice injected with ID8 ovarian cancer cells intraperitoneally 28 days after tumor implantation. Tumor-associated macrophages (TAM) have been shown to have important roles in the malignant progression of various cancers. However, macrophages also posses intrinsic tumoricidal activity and can promote the activity of cytotoxic lymphocytes, but they rapidly adopt an alternative phenotype within tumors, associated with immune-suppression and trophic functions that support tumor growth. The mechanisms that promote TAM polarization in the tumor-microenvironment remain poorly understood, these mechanisms may represent important therapeutic targets to block the tumor-promoting functions of TAM and restore their anti-tumor potential. Here we have characterized TAM in a mouse model of metastatic ovarian cancer. We show that ovarian cancer cells promote membrane-cholesterol efflux and the depletion of lipid rafts from macrophages. Increased cholesterol efflux promoted IL-4 mediated reprogramming while inhibiting IFNg-induced gene expression. These studies reveal an unexpected role for tumor-induced membrane-cholesterol efflux in driving the IL-4 signaling and the tumor-promoting functions of TAM, while rendering them refractory to pro-inflammatory stimuli. Thus, preventing cholesterol efflux in TAM could represent a novel therapeutic strategy to block pro-tumor functions and restore anti-tumor immunity.

Project description:Molecular profiling was used to classify mammary tumors that develop in MTB-IGFIR transgenic mice. It was determined that the primary mammary tumors (PMT), which develop due to elevated expression of the type I insulin-like growth factor receptor (IGF-IR) in mammary epithelial cells, most closely resemble murine tumors with basal-like or mixed gene expression profiles and with human basal-like breast cancers. Downregulation of IGF-IR transgene in MTB-IGFIR tumor-bearing mice leads to the regression of most of the tumors followed by tumor re-appearance in some of the mice. These tumors that re-appear following IGF-IR transgene downregulation do not express the IGF-IR transgene and cluster with murine mammary tumors that express a mesenchymal gene expression profile and with human claudin-low breast cancers. Therefore, IGF-IR overexpression in murine mammary epithelial cells induces mammary tumors with primarily basal-like characteristics while tumors that develop following IGF-IR downregulation express a gene signature that most closely resembles human claudin-low breast tumors. Three conditions: 8 wild type (WT) mammary glands, 11 primary mammary tumor (PMT) samples, 9 recurrent spindle tumor (RST) samples, each sample was hybridized against a universal mouse reference RNA

Project description:The tumor microenvironment modifies the malignancy of tumors. In solid tumors this environment is populated by many macrophages (tumor-associated macrophages; TAMs) that in genetic studies that depleted these cells from mouse models of breast cancer were shown to promote tumor progression to malignancy and increase metastatic potential. Mechanistic studies showed that these effects are through the stimulation of tumor cell migration, invasion, intravasation as well as an enhancement of angiogenesis. Using an in vivo invasion assay it was demonstrated that invasive carcinoma cells are a unique sub-population of tumor cells whose invasion and chemotaxis is dependent upon the co-migration of TAMs with obligate reciprocal signaling through an EGF/CSF-1 paracrine loop. In this study these invasion-promoting macrophages were isolated and subjected to analysis of their transcriptome in comparison to TAMs isolated indiscriminately to function using established macrophage markers by flow cytometry. Five biological replicates for each population (Invasive and General TAM) were used.