Project description:We examined the transcriptional changes altered by ERβ agonist LY500307 treatment in ovarian cancer stem cells (OCSCs) by performing global transcriptome analysis. SKOV3-ALDH+ OCSCs were treated with vehicle or LY500307 (5 µM) for 24 h and the RNA was isolated and utilized for RNA-seq analysis. Our results demonstrated that the top pathways altered by LY500307 were related to cell cycle and apoptosis. Functional enrichment using GSEA analysis showed that LY500307-regulated genes showed positive enrichment in the p53 pathway, oxidative phosphorylation, apoptosis and estrogen late response genes, and negative correlation with E2F targets, G2/M checkpoint and mitotic spindle.

Project description:The cell identities of CD49f+GSCs were further identified by comparing them with the E11.5 PGCs and P2 GSCs. The transcriptomic analysis revealed that the CD49f+GSCs had 1/3 similar genes profile to the E11.5 PGCs and P2 GSCs. Further gene ontology (GO) analysis demonstrated that the E11.5 PGCs, P2 GSCs, and CD49f+GSCs shared the partial similar gene expression profile of pluripotency regulation signaling pathway, PI3K-AKT signaling, chemokine signaling, and HIF-1 signaling.

Project description:We treated mice daily with the GSK-LSD1 or vehicle for 21 days. B and plasma cells were isolated by FACS and RNA-seq performed. Pathway analysis showed that MYC targets, Unfolded protein response, TNFalpha signaling, STAT3, STAT5 and other signaling pathways were significantly altered.

Project description:In the mammalian brain TRPC channels, a family of Ca2+-permeable cation channels, are involved in a variety of processes from neuronal growth and synapse formation to transmitter release, synaptic transmission and plasticity. The molecular appearance and operation of native TRPC channels, however, remained poorly understood. Here we used high-resolution proteomics to show that TRPC channels in the rodent brain are macro-molecular complexes of more than 1 MDa in size that results from co-assembly of the tetrameric channel core with an ensemble of interacting proteins (interactome). The core(s) of TRPC1, 4, 5-containing channels are mostly heteromers with defined stoichiometries for each subtype, while TRPC 3, 6, 7 preferentially form homomers. In addition, TRPC1, 4, 5-channels may co-assemble with the metabotropic glutamate receptor mGluR1 thus guaranteeing both specificity and reliability of channel activation via the phospholipase-Ca2+ pathway. Our results unveil the subunit composition of native TRPC channels and resolve molecular details underlying their activation.

Project description:We examined global transcriptional changes in ES2-control and ES2-KDM1A knockout (KO) cells that are treated with vehicle or estrogen receptor beta agonist LY500307 using RNA-sequencing.

Project description:Fibroblasts from patients with Type I bipolar disorder (BPD) and their unaffected siblings were obtained from an Old Order Amish pedigree with a high incidence of BPD and reprogrammed to induced pluripotent stem cells (iPSCs). Established iPSCs were subsequently differentiated into neuroprogenitors (NPs) and then to neurons. Transcriptomic microarray analysis was conducted on RNA samples from iPSCs, NPs and neurons matured in culture for either 2 weeks (termed early neurons, E) or 4 weeks (termed late neurons, L). Global RNA profiling indicated that BPD and control iPSCs differentiated into NPs and neurons at a similar rate, enabling studies of differentially expressed genes in neurons from controls and BPD cases. Significant disease-associated differences in gene expression were observed only in L neurons. Specifically, 328 genes were differentially expressed between BPD and control L neurons including GAD1, glutamate decarboxylase 1 (2.5 fold) and SCN4B, the voltage gated type IV sodium channel beta subunit (-14.6 fold). Quantitative RT-PCR confirmed the up-regulation of GAD1 in BPD compared to control L neurons. Gene Ontology, GeneGo and Ingenuity Pathway Analysis of differentially regulated genes in L neurons suggest that alterations in RNA biosynthesis and metabolism, protein trafficking as well as receptor signaling pathways GSK3β signaling may play an important role in the pathophysiology of BPD. Samples for each of four iPSCs, NPs and neurons matured in culture for either 2 weeks (termed early neurons, E) or 4 weeks (termed late neurons, L) were analyzed

Project description:Prognosis of glioblastoma remains poor despite a great deal of research. In glioblastoma, the existence of glioblastoma stem cells (GSCs) has been shown, which are responsible for tumorigenesis, invasive capacity, and therapy resistance. One of cancer stem cell markers, Leucine-rich repeat-containing G-protein coupled receptor (Lgr5) plays a role in maintenance of GSCs, however, properties of the Lgr5 positive GSCs have not been fully understood. We applied the Sleeping-Beauty transposon-induced glioblastoma model to the Lgr5-GFP transgenic mice and sorted the GFP-positive cells from the neurosphere cultures derived from the mouse glioblastoma tissues. We found that the GFP-positive GSCs exhibited higher expression of Gli2 using a global gene expression analysis. Gli2 knockdown using lentiviral-mediated shRNA downregulates both the Hedgehog- and Wnt signaling pathway-related genes including Lgr5, suppresses tumor cell proliferation and invasion capacity, and induces apoptosis. Pharmacological Gli inhibition by GANT61 also suppresses tumor cell proliferation. Furthermore, the orthotopic transplantation model revealed that silencing of Gli2 suppresses tumorigenicity of GSCs in vivo. These findings demonstrate that Gli2 affects not only Hh pathway but also Wnt pathway and plays an important role in the GSC maintenance, suggesting that Gli2 may be a potential therapeutic target for glioblastoma treatment.

Project description:To futher understand the properties of CDH1+ GSCs and CDH1- GSCs, flow cytometry was used to sort the twopopulations after trypsin digestion and they were compared by total RNA sequencing (RNA-seq). The data clearlyshowed CDH1+ and CDH1- cells as having highly distinct profiles. In particular, numerous epithelial genes (e.g.Dsp, Pkp2, Krt19) were highly expressed in the CDH1+ population. In contrast, most genes known to be generalmarkers of SSCs/undifferentiated spermatogonia were downregulated (e.g. GFRA1 and ID4) or unchanged (e.g. ZBTB16and SALL4) in CDH1- GSCs. Additionally, KEGG pathway analysis revealed that the two populations exhibiteddistinctive activity in several signaling pathways including WNT and TGFb signaling. Notably, Tgfbr1, Smad2, Smad3tended to be lower in CDH1+ GSCs while Smad7, an inhibitor of TGFb signaling, was higher.The results showed thatCDH1+ GSCs were more epithelial in nature compared to CDH1- GSCs and supported the notion that CDH1+ GSCs are areable to partly overcome MET barrier because they may be in an advanced stage of MET.

Project description:Androgenic modulation of the structural integrity and functional maintenance of the epididymis have been demonstrated. Androgen receptor is a typical receptor to modulate classical testosterone signaling pathway, while accumulated studies suggested number of membranous receptors or intermediated molecules also involved in testosterone pathway. In RNAseq analysis of castration mouse model, profile of testosterone responsive genes was identified. Comibining with our in-vitro studies, an novel testosterone action which incoperated with glutamine and glutamate transportation has been proposed in epididymal epithlium cells.

Project description:Glioblastoma ranks among the most aggressive and lethal of all human cancers. Functionally defined glioma stem cells (GSCs) contribute to this poor prognosis by driving therapeutic resistance and maintenance of cellular heterogeneity. To understand the molecular processes essential for GSC maintenance and tumorigenicity, we interrogated the super-enhancer landscapes of primary glioblastoma specimens and in vitro GSCs. GSCs epigenetically upregulated ELOVL2, a key polyunsaturated fatty acid synthesis enzyme. Targeting ELOVL2 inhibited glioblastoma cell growth and tumor initiation. ELOVL2 depletion altered cellular membrane phospholipid composition, disrupted membrane structural properties, and diminished EGFR signaling through control of fatty acid elongation. In support of the translational potential of these findings, dual targeting of polyunsaturated fatty acid synthesis and EGFR signaling had a combinatorial cytotoxic effect on GSCs.