Project description:To understand the role of LSD1 in B cell differentiation, mice with B cell conditional deletion of LSD1 were intravenously inoculated with LPS. After 3 days, B220+GL7-CD138- naïve B cells and CD138+ plasmablasts were FACS-sorted from the spleens and RNA-seq was performed to identify LSD1-target regulated chromatin.

Project description:To understand the role of LSD1 in B cell differentiation, mice with B cell conditional deletion of LSD1 were intravenously inoculated with LPS. After 3 days, B220+GL7-CD138- naïve B cells and CD138+ plasmablasts were FACS-sorted from the spleens and RNA-seq was performed to identify LSD1-target regulated genes.

Project description:ZBTB18 is a transcriptional repressor and tumor suppressor in glioblastoma (GBM). Specifically, it acts as a repressor of mesenchymal genes. ZBTB18 interacts with C-terminal binding proteins 1 and 2 through a VLDL motif. In GBM, ZBTB18 is cleaved the the calpain 2 intracellular proteases which generates truncated Nte and Cte short forms. Here we have investigated gene expression changes which occur upon the expression of ZBTB18 full lenght or ZBTB18 short form Nte (SF-Nte), as well as upon expression of the mutated counterparts which no longer interacts with CTBP1/2.

Project description:To understand the specific mechanism by which Foxj3 and Zbtb18 control RA-induced neural directional differentiation of ESCs, total mRNAs of Foxj3-ES and Zbtb18-ES were extracted and used for RNA seq and transcriptome analyses. Compared with the control, 1331 genes were differentially expressed (P < 0.05) by twofold in Foxj3-ES (557 were underexpressed and 774 were overexpressed), and 1175 genes were differentially expressed (P < 0.05) by twofold in Zbtb18-ESCs (548 were underexpressed and 627 were overexpressed). Through Gene ontology and gene co-expression network analysis, we identified four critical genes in the neural regulatory networks: Olig1, Zic5, Erbb2, and Olig2. Our study shows that Foxj3 and Zbtb18 could trigger the gene regulatory networks of neurodevelopment by mediating the expression of Olig1, Zic5, Erbb2, and Olig2.

Project description:CD138+ B220- plasma cells were sorted from bone marrow and B220+ CD23+ mature follicular B cells were sorted from the spleens. Plasma cells were sorted from C57BL/6 mice 7 days after boosting with antigen, with mice first primed with an i.p. injection of KLH/IFA followed by boost at day 21 with KLH/PBS i.p. Mature B cells were sorted from antigen-naïve C57BL/6 mice. We compared expression profiles of plasma cells and mature B cells to identify differentially expressed transcripts.

Project description:This study set out to delineate gene expression programs that are differentially modulated in metastatic breast cancer cells with high versus low ability to further metastasize. To this end, the gene expression profiles of E0771GFP cells, M11GFP and M12GFP cells were determined. Analysis of these data sets identified ZBTB18 as a transcriptional repressor with lower activity in tumor cells that retain a high metastatic potential. To determine how ZBTB18 affects gene expression and chromatin organization, ZBTB18 was overexpressed in E0771GFP breast cancer cells. Gene expression profiles and differentially accessible DNA regions analyses were performed and identified Tgfbr2 as one of the genes most significantly repressed by ZBTB18. To determine the contribution of the TGFb1 -TGFBR2 signaling axis towards ZBTB18-mediated effects, E0771GFP cells overexpressing ZBTB18 were transduced with a doxycycline-inducible Tgfbr2 construct. These cells were then treated with doxycycline and recombinant TGFb1 or vehicle control and gene expression profiles were determined. These studies revealed that inhibition of ZBTB18 activity in tumor cells promotes metastasis by increasing chromatin accessibility and by enabling pro-metastatic TGFb1-TGFBR2-driven changes.

Project description:This study set out to delineate gene expression programs that are differentially modulated in metastatic breast cancer cells with high versus low ability to further metastasize. To this end, the gene expression profiles of E0771GFP cells, M11GFP and M12GFP cells were determined. Analysis of these data sets identified ZBTB18 as a transcriptional repressor with lower activity in tumor cells that retain a high metastatic potential. To determine how ZBTB18 affects gene expression and chromatin organization, ZBTB18 was overexpressed in E0771GFP breast cancer cells. Gene expression profiles and differentially accessible DNA regions analyses were performed and identified Tgfbr2 as one of the genes most significantly repressed by ZBTB18. To determine the contribution of the TGFb1 -TGFBR2 signaling axis towards ZBTB18-mediated effects, E0771GFP cells overexpressing ZBTB18 were transduced with a doxycycline-inducible Tgfbr2 construct. These cells were then treated with doxycycline and recombinant TGFb1 or vehicle control and gene expression profiles were determined. These studies revealed that inhibition of ZBTB18 activity in tumor cells promotes metastasis by increasing chromatin accessibility and by enabling pro-metastatic TGFb1-TGFBR2-driven changes.

Project description:CD138-high plasma cell subsets were analyzed by single cell RNA-sequencing to identify gene expression differences between long- and short-lived plasma cells. Five different CD138-high subsets were analyzed based upon differential B220 expression and uptake of the fluorescent glucose analog 2NBDG: splenic B220+2NBDG-, B220+2NBDG+, B220-2NBDG-, B220-2NBDG+, and bone marrow B220-2NBDG+ cells.

Project description:CD138-high plasma cell subsets were analyzed by RNA-sequencing to identify gene expression differences between long- and short-lived plasma cells. Five different CD138-high subsets were analyzed based upon differential B220 expression and uptake of the fluorescent glucose analog 2NBDG: splenic B220+2NBDG-, B220+2NBDG+, B220-2NBDG-, B220-2NBDG+, and bone marrow B220-2NBDG+ cells.

Project description:We have identified the CTBP2 protein as a new ZBTB18 interactor. Here we have evaluated transcriptomic changes upon CTBP2 knockdown in the GBM cell line SNB19. Moreover, we have analyzed whether CTBP2 is required for ZBTB18-mediated gene repression.