Project description:Hereditary Motor and Sensory Neuropathies (HMSN) are the most common inherited peripheral neuropathies and comprise a group of genetically heterogeneous diseases. We study the genetic defects causing three demyelinating disorders: HMSN1A, HMSN-LOM and congenital cateracts facial dysmophism neuropathy (CCFDN) syndrome, which are caused by mutations in PMP22, NDRG1 and CTDP1, respectively. The function and patho-mechanisms of these genes is still unknown. To identify effects downstream of the mutations, thereby possibly involved in the disease process, we used Serial expression of gene expression (SAGE) and microarray analysis. We analyzed human Schwann cell lines from three normal subjects, one HMSN-LOM patient, two HMSN-1A patients and two CCFDN patients and compared our data to a recent dataset of human Schwann cells (4 normal subjects passage 1 vs. 3, GDS1869/GSE4030 M.B. Bunge, 2006). We excluded genes that were not consistently regulated between biological and technical replicates and genes that were found to be influenced by passage number (p<0.05). Comparing expression profiles of demyelinating neuropathies with different mutations we identified: 1. expression signatures specific for each genotype. 2. Genes commonly (dys)regulated in all screened neuropathies. Interestingly, these include genes that play a role in reorganization of sodium channels in central and peripheral nerves (S100A10, CD90), or extracellular matrix remodeling (e.g. TGFBI, SERPINE1, THBS1). We also found high up-regulation of genes involved in Schwann cell lineage and in particular, genes that are associated with an immature or pre-myelinating Schwann cell phenotype (i.e. Sox2, Sox10, COL18A1, TFAP2A, Pax3, CDH19). Our study shows that many genes, possibly contributing to nerve pathology can be identified by this approach. Keywords: disease state analysis, genotype down-stream effects analysis
Project description:Transcriptional profiling of human mesenchymal stem cells comparing normoxic MSCs cells with hypoxic MSCs cells. Hypoxia may inhibit senescence of MSCs during expansion. Goal was to determine the effects of hypoxia on global MSCs gene expression.
Project description:Gene methylation profiling of immortalized human mesenchymal stem cells comparing HPV E6/E7-transfected MSCs cells with human telomerase reverse transcriptase (hTERT)- and HPV E6/E7-transfected MSCs. hTERT may increase gene methylation in MSCs. Goal was to determine the effects of different transfected genes on global gene methylation in MSCs.
Project description:Transcriptional profiling of human mesenchymal stem cells comparing normoxic MSCs cells with hypoxic MSCs cells. Hypoxia may inhibit senescence of MSCs during expansion. Goal was to determine the effects of hypoxia on global MSCs gene expression. Two-condition experiment, Normoxic MSCs vs. Hypoxic MSCs.
Project description:Gene expression profiling of immortalized human mesenchymal stem cells with hTERT/E6/E7 transfected MSCs. hTERT may change gene expression in MSCs. Goal was to determine the gene expressions of immortalized MSCs.
