Project description:In this study we could show that the treatment of primary murine prostate cancer(PCa) cells derived from the well-established TRAMP (transgenic adenocarcinoma ofmouse prostate) model with the histone deacetylase inhibitor (HDI) valproic acid (VPA) has an anti-proliferative, anti-migrative and anti-invasive effect on the cells.To our knowledge this is the first study that identified that treatment of PCa cells with VPA leads to the re-expression of cyclin D2, which is known to be frequently inactive in patients with PCa. Additionally, we could demonstrate that VPA specifically induces re-expression of cyclin D2 as a family member of the highly conserved Dtype cyclins in human colorectal and mammary gland adenocarcinoma cell lines, whereas VPA treatment has no effect in NIH/3T3 fibroblasts. The observed cyclin D2 re-expression in cancer cells is activated by an increase of histone acetylation in the promoter region of the cyclin D2 gene and might be the underlying molecular mechanism of the inhibition of proliferation of cancer cells after VPA treatment. Taken together, our results confirm VPA as an anticancer therapeutic option in tumors with epigenetically repressed cyclin D2 expression. For the comparison of vpa treatment in murine protate cancer cells we hybridized 3 replicates per condition
Project description:In this study we could show that the treatment of primary murine prostate cancer(PCa) cells derived from the well-established TRAMP (transgenic adenocarcinoma ofmouse prostate) model with the histone deacetylase inhibitor (HDI) valproic acid (VPA) has an anti-proliferative, anti-migrative and anti-invasive effect on the cells.To our knowledge this is the first study that identified that treatment of PCa cells with VPA leads to the re-expression of cyclin D2, which is known to be frequently inactive in patients with PCa. Additionally, we could demonstrate that VPA specifically induces re-expression of cyclin D2 as a family member of the highly conserved Dtype cyclins in human colorectal and mammary gland adenocarcinoma cell lines, whereas VPA treatment has no effect in NIH/3T3 fibroblasts. The observed cyclin D2 re-expression in cancer cells is activated by an increase of histone acetylation in the promoter region of the cyclin D2 gene and might be the underlying molecular mechanism of the inhibition of proliferation of cancer cells after VPA treatment. Taken together, our results confirm VPA as an anticancer therapeutic option in tumors with epigenetically repressed cyclin D2 expression.
Project description:Expression profiles of LSK cells stimulated for 24h in the presence or in the absence of of valproic acid (VPA) The molecular process that underlies the biological effects of valproic acid (VPA), a widely used histone deacetylase inhibitor, on HSPCs was investigated by studying the early-response genes of VPA. Genome-wide gene expression studies revealed overrepresentation of genes involved in glutathione metabolism, receptor and signal transducer activity and changes in the HSPCs surface profile following short, 24h VPA treatment. Sca-1, a well-known and widely used stem cell surface marker, was identified as a prominent VPA target.VPA strongly preserved Sca-1 expression on LSK cells, but also re-activated Sca-1 on committed progenitor cells that were Sca-1 negative, thereby reverting them to the LSK phenotype. We demonstrated that re-acquired Sca-1 expression coincided with induced self-renewal capacity as measured by in vitro re-plating assays, while Sca-1 itself was not required for the biological effects of VPA as demonstrated using Sca-1 deficient progenitor cells. We show that VPA can induce several genes involved in signal transduction of which Sca-1 was shown to mark cells with increased self-renewal capacity. These data consist of total mRNA obtained from hematopoietic cells cultured for 24h in the presence or absence of valproic acid. All samples were analyzed in independent biological triplicates.
Project description:New therapy options are required for relapsed B-cell precursor ALL patients in order to improve survival and reduce adverse acute and late effects. We observed a synergistic anti-leukemic activity of concomitant treatment with bortezomib and valproic acid in BCP-ALL cells. In this experiment we aimed to identify the pathways modulated after concomitant treatment with bortezomib and valproic acid. Reh cells treated with either bortezomib, valproic acid, or the combination of both normalized to a untreated control.
Project description:Expression profiles of LSK cells stimulated for 24h in the presence or in the absence of of valproic acid (VPA) The molecular process that underlies the biological effects of valproic acid (VPA), a widely used histone deacetylase inhibitor, on HSPCs was investigated by studying the early-response genes of VPA. Genome-wide gene expression studies revealed overrepresentation of genes involved in glutathione metabolism, receptor and signal transducer activity and changes in the HSPCs surface profile following short, 24h VPA treatment. Sca-1, a well-known and widely used stem cell surface marker, was identified as a prominent VPA target.VPA strongly preserved Sca-1 expression on LSK cells, but also re-activated Sca-1 on committed progenitor cells that were Sca-1 negative, thereby reverting them to the LSK phenotype. We demonstrated that re-acquired Sca-1 expression coincided with induced self-renewal capacity as measured by in vitro re-plating assays, while Sca-1 itself was not required for the biological effects of VPA as demonstrated using Sca-1 deficient progenitor cells. We show that VPA can induce several genes involved in signal transduction of which Sca-1 was shown to mark cells with increased self-renewal capacity.
Project description:New therapy options are required for relapsed B-cell precursor ALL patients in order to improve survival and reduce adverse acute and late effects. We observed a synergistic anti-leukemic activity of concomitant treatment with bortezomib and valproic acid in BCP-ALL cells. In this experiment we aimed to identify the pathways modulated after concomitant treatment with bortezomib and valproic acid.
Project description:The combination of valproic acid and lithium delays hematopoietic stem\progenitor differentiation Microarray-based microRNA profiling study was peformed of four developmentally related hematopoietic cell types isolated from the BM of B6 and D2 mice. Total RNA isolated from purified LSK multilineage cells, committed LS−K+ cells, erythroid TER-119+ cells and myeloid Gr-1+ cells was hybridized to Single Color Illumina mouse WG-6_V2 mRNA arrays. Triplicates were generated for each of the 8 conditions (4 cell types, 2 mouse strains).