Project description:We compared the gene expression profiles of neural stem cells treated with FGF-2, PDGF-AA or in the absence of growth factor (differentiation). Cells grown in the presence of FGF-2 were used as a reference.

Project description:The mammalian adult brain contains two neural stem and precursor (NPC) niches: subventricular zone [SVZ] lining the lateral ventricles and subgranular zone [SGZ] in the hippocampus. From these SVZ NPCs represent the largest NPC pool. Notably, while SGZ NPCs typically only produce neurons and astrocytes, SVZ NPCs produce neurons, astrocytes and oligodendrocytes throughout life. Of particular importance is the generation and replacement of oligodendrocytes, the only myelinating cells of the central nervous system (CNS). SVZ NPCs contribute to myelination by regenerating oligodendrocyte precursor cell (OPC) pool and by differentiating into oligodendrocytes in the developing and demyelinated brain. The neurosphere assay has been widely adopted by the scientific community to facilitate the study of NPCs in vitro. Here, we present a streamlined protocol for culturing postnatal and adult SVZ NPCs and OPCs from primary neurosphere cells. We characterize the purity and differentiation potential as well as provide RNA-sequencing profiles of postnatal SVZ NPCs, postnatal SVZ OPCs and adult SVZ NPCs. We show that primary neurospheres cells generated from postnatal and adult SVZ differentiate into neurons, astrocytes and oligodendrocytes concurrently and at comparable levels. SVZ OPCs are generated by subjecting primary neurosphere cells to OPC growth factors fibroblast growth factor (FGF) and platelet-derived growth factor-AA (PDGF-AA). We further show SVZ OPCs can differentiate into oligodendrocytes in the absence and presence of thyroid hormone T3. Transcriptomic analysis confirmed the identities of each cell population and revealed novel immune and signalling pathways expressed in an age and cell type specific manner.

Project description:We analyzed gene expression in human fibroblasts stimulated by platelet-derived growth factor-BB (PDGF-BB) or basic fibroblast growth factor (bFGF) for 1h and 24h. The results of two independent experiments were merged. SAM analysis identified 116 relevant probe sets. Hierarchical clustering of these probe sets showed divergent early gene regulation by PDGF and FGF but overlapping late response. We first analyzed genes commonly regulated by PDGF-BB and b-FGF more than 2 fold after 24h of stimulation and we found that these two growth factors activated SREBP and E2F and repressed FOXO. We then focused on the early gene expression response induced by both growth factors. We performed a fold change analysis and found 114 probe sets regulated by PDGF-BB and 42 probe sets regulated by b-FGF, 37 of which were shared between the two gene lists . We found by data mining that both PDGF-BB and b-FGF activated AP-1 and NF-kB. Next we analyzed genes specifically regulated by PDGF-BB and found that STATs are specifically activated by PDGF and not by FGF. Experiment Overall Design: Human foreskin fibroblasts (AG01518) were cultured (1.5E6 cells/10 cm dish) in MEM medium with 10% fetal calf serum and glutamine for 24h, then washed and incubated for 47h in serum-free medium. Cells were stimulated for 1h by PDGF-BB (25ng/ml) or b-FGF (10ng/ml, + heparine 50 microg/ml). Alternatively, cells were incubated for 24h in starvation medium and treated for 24h with growth factors, or left untreated for 48h in serum-free medium (control treatment). Experiment Overall Design: Two biological replicates were performed

Project description:We analyzed gene expression in human fibroblasts stimulated by platelet-derived growth factor-BB (PDGF-BB) or basic fibroblast growth factor (bFGF) for 1h and 24h. The results of two independent experiments were merged. SAM analysis identified 116 relevant probe sets. Hierarchical clustering of these probe sets showed divergent early gene regulation by PDGF and FGF but overlapping late response. We first analyzed genes commonly regulated by PDGF-BB and b-FGF more than 2 fold after 24h of stimulation and we found that these two growth factors repressed FOXO. We then focused on the early gene expression response induced by both growth factors. We performed a fold change analysis and found 114 probe sets regulated by PDGF-BB and 42 probe sets regulated by b-FGF, 37 of which were shared between the two gene lists . Keywords: Time course, cell Treatment comparison

Project description:Human fetal dissociates from 19-22 week gestational age were magnetically sorted for CD140a antigen. CD140a-defined OPCs were plated into serum free conditions and allowed to differentiate in the absence of growth factors or mitogens. RNA was extracted from cells immediately following isolation and every day for 4 days. To block differentiation, matched cells were cultured in the presence of PDGF-AA (10ng/ml). This treatment prevents the acquisition of O4-positive oligodendrocyte cell fate and delays MBP mRNA expression by human CD140a-sorted OPCs.

Project description:PDGF and FGF treatment in E13.5 MEPMs. 4 hr PDGF treated MEPMs (3 replicates), 4 hr FGF treated MEPMs (3 replicates), 1 hr PDGF + PD325901 treated MEPMs (2 replicates), 4 hr PDGF + PD325901 treated MEPMs (2 replicates), 1 hr FGF + PD325901 treated MEPMs (2 replicates), 4 hr FGF + PD325901 treated MEPMs (2 replicates), 1 hr PDGF + LY294002 treated MEPMs (2 replicates), 4 hr PDGF + LY294002 treated MEPMs (2 replicates), 1 hr FGF + LY294002 treated MEPMs (2 replicates), 4 hr FGF + LY294002 treated MEPMs (2 replicates) 4 hr PDGF treated MEPMs (3 replicates), 4 hr FGF treated MEPMs (3 replicates), 1 hr PDGF + PD325901 treated MEPMs (2 replicates), 4 hr PDGF + PD325901 treated MEPMs (2 replicates), 1 hr FGF + PD325901 treated MEPMs (2 replicates), 4 hr FGF + PD325901 treated MEPMs (2 replicates), 1 hr PDGF + LY294002 treated MEPMs (2 replicates), 4 hr PDGF + LY294002 treated MEPMs (2 replicates), 1 hr FGF + LY294002 treated MEPMs (2 replicates), 4 hr FGF + LY294002 treated MEPMs (2 replicates)

Project description:Here, we demonstrate that upon inhibition of the Fgf/Erk pathway in mouse trophoblast stem cells (TSCs), the Ets2 repressor factor (Erf) interacts with components of the Nuclear Receptor Corepressor Complex 1 and 2 (NCoR1 and NCoR2). Upon attenuation of Fgf signalling, unphosphorylated, nuclear Erf recruits the NCoR1/2 complex to key trophoblast genes, brings about their transcriptional silencing and facilitates differentiation and placental development.

Project description:Human fetal dissociates from 19-22 week gestational age were magnetically sorted for CD140a antigen. CD140a-defined OPCs were plated into serum free conditions and allowed to differentiate in the absence of growth factors or mitogens. RNA was extracted from cells immediately following isolation and every day for 4 days. To block differentiation, matched cells were cultured in the presence of PDGF-AA (10ng/ml). This treatment prevents the acquisition of O4-positive oligodendrocyte cell fate and delays MBP mRNA expression by human CD140a-sorted OPCs. 29 samples, 4 time points, 2 media conditions, at least three biological replicates per time point and media condition

Project description:PDGF and FGF treatment in E13.5 MEPMs. 4 hr PDGF treated MEPMs (3 replicates), 4 hr FGF treated MEPMs (3 replicates), 1 hr PDGF + PD325901 treated MEPMs (2 replicates), 4 hr PDGF + PD325901 treated MEPMs (2 replicates), 1 hr FGF + PD325901 treated MEPMs (2 replicates), 4 hr FGF + PD325901 treated MEPMs (2 replicates), 1 hr PDGF + LY294002 treated MEPMs (2 replicates), 4 hr PDGF + LY294002 treated MEPMs (2 replicates), 1 hr FGF + LY294002 treated MEPMs (2 replicates), 4 hr FGF + LY294002 treated MEPMs (2 replicates)

Project description:Neural precursor cells (NPCs) in the mammalian neocortex generate various neuronal and glial cell types in a developmental stage-dependent manner. Most neocortical NPCs lose their neurogenic potential after birth. We have previously shown that high mobility group A (HMGA) proteins confer the neurogenic potential on early-stage NPCs during the midgestation period, although the underlying mechanisms are not fully understood. Here we performed microarray analysis and compared expression profiles between control and HMGA2-overexpressed NPCs. Mouse neocortical neuroepithelial cells were isolated at embryonic day 11.5 and cultured as neurospheres for 9 days in vitro in the presence of fibroblast growth factor (FGF) 2 and epidermal growth factor (EGF). These cells were infected with control or HMGA2-expressing retrovirus, cultured in the presence of FGF and EGF for 3 days. Half of them were collected immediately for microarray analysis, and the other half were cultured in the absence of FGF for 12 h and then collected for microarray analysis.