Project description:Intrinsic epigenetic state of primary osteosarcoma drives metastasis.

Project description:This SuperSeries is composed of the SubSeries listed below. Refer to individual Series

Project description:A Sleeping Beauty (SB) transposon forward genetic screen was performed to identify the genes that promote osteosarcoma (OS) development and metastasis. Mutagenesis induced OS in wild type mice and accelerated it on a Trp53 deficient background. Analysis of tumors demonstrated that Trp53 deficiency is correlated with genomic instability, which was virtually absent in tumors induced by SB mutagenesis alone. Metastases developed in a subset of animals and in nearly all cases were clonal related to primary tumors. Over 200 candidate genes were identified, many of which are altered in human cancers including OS. Signaling pathways enriched for candidate genes were also identified and a subset of these pathways and genes were functionally validated and represent new targets for OS treatment. Bisulphite converted DNA from the 21 diagnosis osteosarcoma patients and 3 hOB cell line replicates were hybridised to the Illumina Infinium 450K Human Methylation Beadchip.

Project description:Intrinsic epigenetic state of primary osteosarcoma drives metastasis [ATAC-seq]

Project description:Intrinsic epigenetic state of primary osteosarcoma drives metastasis [RNA-seq]

Project description:Intrinsic epigenetic state of primary osteosarcoma drives metastasis [ChIP-seq]

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:A Sleeping Beauty (SB) transposon forward genetic screen was performed to identify the genes that promote osteosarcoma (OS) development and metastasis. Mutagenesis induced OS in wild type mice and accelerated it on a Trp53 deficient background. Analysis of tumors demonstrated that Trp53 deficiency is correlated with genomic instability, which was virtually absent in tumors induced by SB mutagenesis alone. Metastases developed in a subset of animals and in nearly all cases were clonal related to primary tumors. Over 200 candidate genes were identified, many of which are altered in human cancers including OS. Signaling pathways enriched for candidate genes were also identified and a subset of these pathways and genes were functionally validated and represent new targets for OS treatment.

Project description:Pulmonary metastasis is the main cause of medical failure and death of osteosarcoma patients. Our recent study identified IRX1 as a potential metastasis-driving gene in osteosarcoma. Studies showed that IRX1 can promote the migration, invasion and anoikis resistance of osteosarcoma cells. We generated 143B stable IRX1 knockdown and control cell lines, and found that IRX1 knockdown can inhibit the pulmonary metastasis of 143B cells in orthotopic mouse osteosarcoma model. Expression microarrays are performed in143B-shCtrl and 143B-shIRX1 cells to study the mechanism of IRX1 on promoting metastasis of osteosarcoma

Project description:Pulmonary metastasis is the main cause of medical failure and death of osteosarcoma patients. Despite intensive search for new therapeutic strategies, survival has not improved during the last two decades. Therefore, it’s very urgent to understand the underlying mechanisms of tumor progression to identify targets of novel therapies for osteosarcoma. We used microarrays to identify the metastasis-driving gene during osteosarcoma metastasis