Project description:Expression profile of PC-3-derived cell lines from transendothelial migration or in vivo metastasis

Project description:Gene expression profile of two Ara-C-resistant cell lines

Project description:Metastatic colonization involves cancer cell lodgment or adherence in the microvasculature and subsequent migration of those cells across the endothelium into a secondary organ site. To study this process further, we analyzed transendothelial migration of human PC-3 prostate cancer cells in vitro. We isolated a subpopulation of cells, TEM4-18, that crossed an endothelial barrier more efficiently, but surprisingly, were less invasive than parental PC-3 cells in other contexts in vitro. Importantly, TEM4-18 cells were more aggressive than PC-3 cells in a murine metastatic colonization model. Microarray and FACS analysis of these cells showed that the expression of many genes previously associated with leukocyte trafficking and cancer cell extravasation were either unchanged or down-regulated. TEM4-18 cells exhibited characteristic molecular markers of an epithelial-to-mesenchymal transition (EMT), including frank loss of E-cadherin expression and upregulation of the E-cadherin repressor ZEB1. Silencing ZEB1 in TEM4-18 cells resulted in increased E-cadherin and reduced transendothelial migration. TEM4-18 cells also express N-cadherin, which was found to be necessary, but not sufficient for increased transendothelial migration. Our results extend the role of EMT in metastasis to transendothelial migration and implicate ZEB1 and N-cadherin in this process in prostate cancer cells. Experiment Overall Design: We wanted to compare the expression profiles of cells that had undergone transendothelial migration. The parental, and reference cell line, PC-3 was plated onto a confluent human microvascular endothelial cell line from the lung and allowed to migrate across this monolayer. A new cell line, TEM4-18, was isolated from this experiment. We also performed this experiment a second time to isolate a biological replicate of the TEM4-18 cell line, termed TEM2-5. All 3 cell lines, PC-3, TEM4-18, and TEM2-5 are analyzed as replicates in this experiment for a total of 6 samples in this microarray. Both TEM4-18 and TEM2-5 were then compared to PC-3 cells for changes in gene expression.

Project description:Gene expression profile of acute lymphoblastic leukemia cell lines treated with panobinostat

Project description:Gene expression profile of cell lines 2106T, H1975 and MeWo after knockdown of PAEP.

Project description:Gene expression profile of human embryonic stem cell-derived hepatocyte-like cells

Project description:Metastatic colonization involves cancer cell lodgment or adherence in the microvasculature and subsequent migration of those cells across the endothelium into a secondary organ site. To study this process further, we analyzed both in vitro and in vivo migration of human PC-3 prostate cancer cells . We isolated 6 subpopulation of cells: TEM4-18 were isolated from in vitro transendothelial migration of PC-3 cells; GS672.Ug, GS683.LALN and JD1203.Lu are single passaged in vivo cell lines from TEM4-18; GS689.Li and GS694.LAd are twice passaged in vivo cell lines from PC-3 cells. All the subpopulations crossed an endothelial barrier more efficiently and more aggressive in a murine metastatic colonization model than parental PC-3 cells. Microarray and FACS analysis of these cells showed that the expression of many genes previously associated with leukocyte trafficking and cancer cell extravasation were either unchanged or down-regulated. These cells exhibited characteristic molecular markers of an epithelial-to-mesenchymal transition, including frank loss of E-cadherin expression and upregulation of the E-cadherin repressor ZEB1. We used microarray to detail the global programme of gene expression underlying cancer metastasis. We wanted to compare the expression profiles of cells that had undergone transendothelial migration in vitro or metastasis in vivo. TEM4-18 was generated from the parental PC-3 that was plated onto a confluent human microvascular endothelial cell line from the lung and allowed to migrate across this monolayer. GS672.Ug were isolated from urogenital after intravenous injection of PC-3 cells. GS683.LALN and JD1203.Lu were isolated from lung after intravenous injection of TEM-418 cells. JD549.Ki were isolated from kidney after intravenous injection PC-3 cells. GS689.Li and GS694.LAd were isolated from liver and left adrenal after intravenous injection of JD549.Ki. All the cell lines are analyzed once except duplicate for TEM4-18 in this experiment for a total of 7 samples in this microarray. All other five sublines were then compared to TEM4-18 cells for changes in gene expression.

Project description:Metastatic colonization involves cancer cell lodgment or adherence in the microvasculature and subsequent migration of those cells across the endothelium into a secondary organ site. To study this process further, we analyzed transendothelial migration of human PC-3 prostate cancer cells in vitro. We isolated a subpopulation of cells, TEM4-18, that crossed an endothelial barrier more efficiently, but surprisingly, were less invasive than parental PC-3 cells in other contexts in vitro. Importantly, TEM4-18 cells were more aggressive than PC-3 cells in a murine metastatic colonization model. Microarray and FACS analysis of these cells showed that the expression of many genes previously associated with leukocyte trafficking and cancer cell extravasation were either unchanged or down-regulated. TEM4-18 cells exhibited characteristic molecular markers of an epithelial-to-mesenchymal transition (EMT), including frank loss of E-cadherin expression and upregulation of the E-cadherin repressor ZEB1. Silencing ZEB1 in TEM4-18 cells resulted in increased E-cadherin and reduced transendothelial migration. TEM4-18 cells also express N-cadherin, which was found to be necessary, but not sufficient for increased transendothelial migration. Our results extend the role of EMT in metastasis to transendothelial migration and implicate ZEB1 and N-cadherin in this process in prostate cancer cells.

Project description:Gene expression profile of GM-CSF derived bone marrow dendritic cell subsets after LPS stimulation

Project description:Expression profile from PCE-Epi and derived cell lines