Project description:KDM4B, an important epigenetic regulator of cell proliferation, metastasis and genome stability, is often overexpressed in gastric cancer. Notably, elevated expression of KDM4B is associated with a poor clinical outcome. A global transcriptomic analysis between KDM4B control and KDM4B-knockdown AGS cells without or with Helicobacter pylori challenge reveals differentially expressed genes involved in response to virus, multi-organism process, and response to stimulus, suggesting KDM4B as an inducible epigenetic factor under H. pylori challenge.

Project description:Histone lysine demethylase KDM4B is often overexpressed in prostate cancer and links to poor survival outcome. Recent evidence suggests that KDM4B serves as a potential therapeutic target. The global transcriptomic analysis between control and KDM4B-knockdown C4-2B cells reveals the metabolic genes involved in Warburg effect are downregulated after knocking down the expression of KDM4B, indicating its role in tumor growth.

Project description:Transcriptomic analysis of KDM4B-mediated gene in C4-2B prostate cancer cells

Project description:To investigate how histone demethylases KDM4B and KDM6B may be involved in osteogenic commitment of mesenchymal stem cells (MSCs), we performed gene expression profiling and comparison on control, KDM4B- and KDM6B-knockdown MSCs at different stages of osteogenic differentiation. Human MSCs infected with scramble shRNAs, shRNAs against KDM4B or KDM6B are treated with BMP4/7 for 0, 4 and 24hrs. Total RNA were extracted from these 9 samples.

Project description:chromatin immunoprecipitation sequencing (ChIP-seq) was performed to identify the targeted genes of kdm4b

Project description:Transcriptomic differences of gata1+ erythrocytes between the kdm4b-/- mutants and the WT embryos at 48 hpf were analyzed by RNA sequencing.

Project description:To identify the genes that are controled by H3K9me3 modification in PEs, we conducted transcriptome analysis using Egfp-, Kdm4b-PEs, and IVF embryos at blastocyst stages. Kdm4b or Egfp mRNA injected oocytes were parthenogenetically activated. IVF embryos were generated according to standard protcol. All embryos were cultured in KSOM medium for 120 hours after activation or sperm insemination. Five blastocysts per one biological replicate were pooled and analyzed.

Project description:We analysed the molecular effects on gene modulation exerted by aglianico grape seed extract (AGS) in mesothelioma. Previous results allowed to demonstrate that AGS polar extracts determined apoptosis in three different mesothelioma cell lines including one resistant to conventional chemotherapeutic treatment. In addition this treatment affected tumorigenic and invasive properties of these cells We used microarrays to identify molecular pathway deregulated by AGS treatment and involved in apoptosis induction.

Project description:To investigate how histone demethylases KDM4B and KDM6B may be involved in osteogenic commitment of mesenchymal stem cells (MSCs), we performed gene expression profiling and comparison on control, KDM4B- and KDM6B-knockdown MSCs at different stages of osteogenic differentiation.

Project description:KDM4B (lysine demethylase 4B) in adipose tissues plays a critical role in energy balance, oxidation, lipolysis and thermogenesis. Loss of KDM4B in mice resulted in obesity associated with reduced energy expenditure and impaired adaptive thermogenesis. Mechanistically, we determined that KDM4B directly controls the expression of multiple metabolic genes.