Project description:We studied MET-transformed human primary osteoblasts (MET-HOBs), which we previously turned into osteosarcoma cells by LV driven over-expression of MET oncogene. We obtained distinct MET transformed HOB clones derived from independent events of transgene integration. To characterise the phenotype of the MET-HOB clones we used oligonucleotide microarrays. Expression profiles of MET-HOBs and parental HOBs were compared.

Project description:We studied MET-transformed human primary osteoblasts (MET-HOBs), which we previously turned into osteosarcoma cells by LV driven over-expression of MET oncogene. We obtained distinct MET transformed HOB clones derived from independent events of transgene integration. To characterise the phenotype of the MET-HOB clones we used oligonucleotide microarrays. Expression profiles of MET-HOBs and osteosarcoma cell lines were compared.

Project description:We studied MET-transformed human primary osteoblasts (MET-HOBs), which we previously turned into osteosarcoma cells by LV driven over-expression of MET oncogene. We obtained distinct MET transformed HOB clones derived from independent events of transgene integration. To characterise the phenotype of the MET-HOB clones we used oligonucleotide microarrays. Expression profiles of MET-HOBs and osteosarcoma cell lines were compared. To characterise the phenotype of the MET-HOB clones we used oligonucleotide microarrays

Project description:We studied MET-transformed human primary osteoblasts (MET-HOBs), which we previously turned into osteosarcoma cells by LV driven over-expression of MET oncogene. We obtained distinct MET transformed HOB clones derived from independent events of transgene integration. To characterise the phenotype of the MET-HOB clones we used oligonucleotide microarrays. Expression profiles of MET-HOBs and parental HOBs were compared. To characterise the phenotype of the MET-HOB clones we used oligonucleotide microarrays

Project description:Transcriptional profiles of MET transformed osteoblast clones (MET-HOB) and mesenchymal stem cells (MSC) where osteoblast differentiation was induced

Project description:Expression profiles osteosarcoma cell lines and MET transformed osteoblast clones

Project description:The osteogenic differentiation process consists in a well-coordinated multi-step sequence of events, in which each stage is characterized by the expression of distinct protein markers, as well as by individual morphological features. In order to precisely identify the step at which cells are permissive to MET-driven transformation, we used expression profiling. We compared the transcriptional profiles of MET-HOB and MSC cells where osteoblast differentiation was induced. Using microarrays, we evaluated the expression profiles of MET-HOB and MSC cells where osteoblast differentiation was induced, by culturing cells in the presence of ascorbic acid, α-glycerophosphate and dexamethasone for 7, 14 and 21 days

Project description:The osteogenic differentiation process consists in a well-coordinated multi-step sequence of events, in which each stage is characterized by the expression of distinct protein markers, as well as by individual morphological features. In order to precisely identify the step at which cells are permissive to MET-driven transformation, we used expression profiling. We compared the transcriptional profiles of MET-HOB and MSC cells where osteoblast differentiation was induced.

Project description:Osteoblasts are key players in bone remodeling. The accessibility of human primary osteoblast-like cells (HOb) from bone explants render them a lucrative model for studying molecular physiology of bone turnover, discovery of novel anabolic therapeutics and mesenchymal cell biology in general. Relatively little is known about resting and dynamic expression profiles of HObs and no studies have been conducted to date to systematically assess the osteoblast transcriptome. The aim of this study was to characterize HObs and investigate signaling cascades and gene networks using genomewide expression profiling in resting and Bone Morphogenic Protein (BMP)-2 and Dexamethasone induced cells. Our data showed a vast number of genes and networks expressed predominantly in HObs as compared to closely related cells such as fibroblasts or chondrocytes. For instance, genes in the insulin-like growth factor (IGF) signaling pathway were enriched in HObs (p=0.003) and included the binding proteins (IGFBP1, 2, 5) and IGF-2 and its receptor. Another HOb specific expression pattern included leptin and its receptor (p<10-8). Furthermore, after stimulating HObs with Dexamethasone or BMP-2, the expression of several interesting genes and pathways were observed where data supported the role of peripheral leptin signaling in bone cell function. In conclusion, we provide the landscape of tissue-specific and dynamic gene expression in HObs, a resource, which will allow utilization of osteoblasts as a model to study specific gene networks and gene families related to human bone physiology and diseases. Keywords: cell type comparison

Project description:A microRNA array was performed using human primary osteoblasts (hOB) obtained from trabecular bone of postmenopausal women after knee replacement due to osteoarthritis in order to determine the miRNAs expressed in these osteoblastic cells.