Project description:The survival of isolated metastatic cells and expansion into macroscopic tumour has been recognized as a limiting step for metastasis formation in several cancer types yet the determinants of this process remain largely uncharacterized. In colorectal cancer (CRC), we identify a transcriptional programme in tumour-associated stromal cells, which is intimately linked to a high risk of developing recurrent disease after therapy. A large proportion of CRCs display mutational inactivation of the TGF-beta pathway but paradoxically they are characterized by high TGF-beta production. In these tumours, TGF-beta instructs a transcriptional programme in stromal cells, which confers a high risk of developing metastatic disease. We quantified the association of TGF-beta-activated fibroblasts with disease progression. To this end, we used as surrogates the gene expression programme upregulated by addition of TGF-beta to normal colon mucosa-derived fibroblasts (CCD-Co-18) in culture.

Project description:The survival of isolated metastatic cells and expansion into macroscopic tumour has been recognized as a limiting step for metastasis formation in several cancer types yet the determinants of this process remain largely uncharacterized. In colorectal cancer (CRC), we identify a transcriptional programme in tumour-associated stromal cells, which is intimately linked to a high risk of developing recurrent disease after therapy. A large proportion of CRCs display mutational inactivation of the TGF-beta pathway but paradoxically they are characterized by high TGF-beta production. In these tumours, TGF-beta instructs a transcriptional programme in stromal cells, which confers a high risk of developing metastatic disease. We purified by FACS CD31(+), CD45(+), FAP(+) and Epcam(+) populations from fresh CRC samples and assessed their gene expression profiles

Project description:The survival of isolated metastatic cells and expansion into macroscopic tumour has been recognized as a limiting step for metastasis formation in several cancer types yet the determinants of this process remain largely uncharacterized. In colorectal cancer (CRC), we identify a transcriptional programme in tumour-associated stromal cells, which is intimately linked to a high risk of developing recurrent disease after therapy. A large proportion of CRCs display mutational inactivation of the TGF-beta pathway but paradoxically they are characterized by high TGF-beta production. In these tumours, TGF-beta instructs a transcriptional programme in stromal cells, which confers a high risk of developing metastatic disease. We purified by FACS [CD45(+),Epcam(-)], [CD45(-) Epcam(+)] and [CD45(-) Epcam(-)] cell populations from fresh CRC samples and assessed their gene expression profiles

Project description:The survival of isolated metastatic cells and expansion into macroscopic tumour has been recognized as a limiting step for metastasis formation in several cancer types yet the determinants of this process remain largely uncharacterized. In colorectal cancer (CRC), we identify a transcriptional programme in tumour-associated stromal cells, which is intimately linked to a high risk of developing recurrent disease after therapy. A large proportion of CRCs display mutational inactivation of the TGF-beta pathway but paradoxically they are characterized by high TGF-beta production. In these tumours, TGF-beta instructs a transcriptional programme in stromal cells, which confers a high risk of developing metastatic disease. We purified by FACS [CD45(+),Epcam(-)], [CD45(-) Epcam(+)] and [CD45(-) Epcam(-)] cell populations from fresh CRC samples and assessed their gene expression profiles Freshly obtained tumors from CRC patients (n=8) treated at Hospital del Mar (Barcelona, Spain) were minced and incubated with 0.1% Hyaluronidase and 0.1% Collagenase 1A. Pieces were then homogenized. Enzymatic reaction was stopped by adding 10% FBS and single cells were collected by sequential filtering. Cells were resuspended in Ammonium Chloride (0.15M) to lyse erythrocytes. Cells were stained with anti-hEpcam/TROP1-APC and anti-CD45-PE conjugated antibody. Dead cells were labeled with Propidium Iodide. Fluorescence Activated Cell Sorting (FACS) was used to separate cells.

Project description:The survival of isolated metastatic cells and expansion into macroscopic tumour has been recognized as a limiting step for metastasis formation in several cancer types yet the determinants of this process remain largely uncharacterized. In colorectal cancer (CRC), we identify a transcriptional programme in tumour-associated stromal cells, which is intimately linked to a high risk of developing recurrent disease after therapy. A large proportion of CRCs display mutational inactivation of the TGF-beta pathway but paradoxically they are characterized by high TGF-beta production. In these tumours, TGF-beta instructs a transcriptional programme in stromal cells, which confers a high risk of developing metastatic disease. We purified by FACS CD31(+), CD45(+), FAP(+) and Epcam(+) populations from fresh CRC samples and assessed their gene expression profiles Freshly obtained tumours from 6 CRC patients treated at Hospital del Mar or Hospital Clinic (Barcelona, Spain) were minced and incubated with Collagenase IV (100 U mL-1). Enzymatic reaction was stopped by adding 10% FBS, single cells were collected by sequential filtering and resuspended in ammonium chloride (0.15M) to lyse erythrocytes. Cells were stained with FAP unconjugated rabbit antibody. After two washes with HBSS, cells were stained with an APC conjugated anti-rabbit antibody; anti-hEPCAM/TROP1-FITC, anti-CD31-PE and anti-CD45-PE-Cy7 conjugated antibody. Dead cells were labelled with Propidium Iodide. Fluorescence Activated Cell Sorting (FACS) was used to separate 2000 cells from each population; [CD45(+), EPCAM(-), CD31(-), FAP(-)], [CD45(-) EPCAM(+), CD31(-), FAP(-)], [CD45(-), EPCAM(-), CD31(+),FAP(-)] and [CD45(-), EPCAM(-), CD31(-), FAP(+)].

Project description:Transcriptional profiling of human umbilical vein endothelial cells following stimulation with tumour necrosis factor alpha and transforming growth factor beta singly or combined for 8 hr All stimulations were for 8 hr - TNF-α vs no cytokine; TGF-β1 vs no cytokine; TNF-α & TGF-β1 vs TNF-α alone; TNF-α & TGF-β1 vs TGF-β1 alone

Project description:Response to TGF-Beta in CCD-18Co

Project description:We obtained gene expression signatures from TGF-beta treated fribroblasts. Upregulated genes predict poor prognosis in Colorectal Cancer. Fibroblasts extracted from human normal colon mucosa were treated with TGF-β1 for 8 hours. Gene expression profiles for treated or untreated fibroblasts were measured in duplicate using HG-133+PM Affimetrix arrays.

Project description:Connective tissue growthfactor (CTGF/CCN2) is a matricellular protein induced by transforming growth factor-beta (TGF-beta) and intimately involved with tissue repair and overexpressed in various fibrotic conditions. We have previously shown that keratinocytes in vitro downregulate TGF-beta induced expression of CTGF in fibroblasts by an interleukin-1 alfa (IL-1alfa) dependent mechanism. With this study we want to get a better overall perspective who fibroblasts respond on TGF-beta and in a TGF-Beta stinulated system, what effect addition of IL-1 alfa have. This to understand the expression of CTGF in human fibroblasts which in turn have implications for the pathogenesis of fibrotic conditions involving the skin. Microarray was performed on human skin fibroblast RNA from one patient, Fibroblasts were seeded in vitro as a control (Control, C), TGF-beta were added to fibroblasts and incubated for 16 h (addition of TGF-beta, T) and both IL-1alfa and TGF-beta were added to fibroblasts for 16 h (addition of IL-1alfa and TGF-beta, IT). Each condition (C,T and IT) were done in three replicates.

Project description:Most head and neck cancer (HNC) patients are resistant to cetuximab, an antibody against the epithelial growth factor receptor. Such therapy resistance is known to be mediated, in part, by stromal cells surrounding the tumor cells; however, the mechanisms underlying such a resistance phenotype remain unclear. To identify the mechanisms underlying cetuximab resistance in an unbiased manner, RNA-sequencing (RNA-seq) of HNC patient-derived xenografts (PDXs) was performed. Comparing the gene expression of HNC-PDXs before and after treatment with cetuximab indicated that the TGF-beta signaling pathway was upregulated in the stromal cells of PDXs that progressed to cetuximab (CetuximabProg-PDX). However, in PDXs that were extremely sensitive to cetuximab, and when tumors shrunk following cetuximab treatment (CetuximabSen-PDX), the TGF-beta pathway was downregulated in the stromal compartment. Histopathological analysis of PDXs showed that in CetuximabProg-PDX, TGF-beta-activation was detected in cancer-associated fibroblasts (CAFs). These TGF-beta-activated CAFs were sufficient to limit cetuximab efficacy in vitro and in vivo. Moreover, blocking the TGF-beta pathway using the SMAD3 inhibitor, SIS3, enhanced cetuximab efficacy and prevented the progression of CetuximabProg-PDX. Altogether, our findings indicate, for the first time, that TGF-beta-activated CAFs play a role in limiting cetuximab efficacy in HNC.