Project description:The low homing and engraftment efficiency especially in context of low availability of donor CD34+ HSPCs is a major challenge, which limits the clinical applications of HSC therapies. SDF-1/CXCR4 axis plays a principle role in the homing and engraftment of hematopoietic stem/progenitor cells. Activation of CXCR4 induces cell trafficking and homing to the marrow microenvironment, where it retains hematopoietic stem cells in close contact with marrow stromal cells. The aim of our study is to understand the mechanisms of other molecules acting along with CXCR4 to provide new insights in the regulation of cell phenotypes. This data shows the transcriptional profiling of human hematopoetic leukemic k562 cells comparing control, wild type and two different mutant cells where mutant cells have constitutively activated CXCR4 gene expression where mutant 1 and 2 have different aminoacid substituions. biological replicates: three control, three wild type, three mutant 1, three mutant 2

Project description:Rationale: A previous transcriptome meta-analysis revealed significantly lower levels of corticotropin-releasing hormone (CRH) mRNA in corticolimbic brain regions in major depressive disorder (MDD) subjects. Rodent studies show that cortical CRH is mostly expressed in GABAergic neurons; however, the characteristic features of CRH+ cells in human brain cortex and their association with MDD are largely unknown. Methods: Subgenual anterior cingulate cortex (sgACC) of human subjects without brain disorders were labeled using fluorescent in situ hybridization (FISH) for CRH and markers of excitatory (SLC17A7), inhibitory (GAD1) neurons, as well as markers of other interneuron subpopulations (PVALB, SST, VIP). MDD-associated changes in CRH+ cell density and cellular CRH expression (n=6/group) were analyzed. RNA-sequencing was performed on sgACC CRH+ neurons from comparison and MDD subjects (n=6/group), and analyzed for group differences. Results: About 80% of CRH+ cells were GABAergic and 17.5% were glutamatergic. CRH+ GABAergic neurons co-expressed VIP (52%), SST (7%), or PVALB (7%). MDD subjects displayed lower CRH mRNA levels in GABAergic neurons relative to comparison subjects without changes in cell density. CRH+ neurons show transcriptomic profile suggesting lower excitability and less GABA release and reuptake. Further analyses suggested that these molecular changes are not mediated by altered glucocorticoid feedback and potentially occur downstream for a common modulator of neurotrophic function. Summary: CRH+ cells in human sgACC are a heterogeneous population of GABAergic neurons, although largely co-expressing VIP. MDD is associated with reduced markers of inhibitory function of CRH+ neurons.

Project description:MCF7 cells were stimulated with vehicle or 100nM corticotropin releasing hormone (CRH) for 24h. The effect of CRH on the expression of genes relevant to estrogen signalling was investigated by using the Human Estrogen Receptor Signaling RT² Profiler™ PCR Array (SABioscience Corp).

Project description:MCF7 cells were stimulated with vehicle or 100nM corticotropin releasing hormone (CRH) for 24h. The effect of CRH on the expression of genes relevant to estrogen signalling was investigated by using the Human Estrogen Receptor Signaling RTM-BM-2 ProfilerM-bM-^DM-" PCR Array (SABioscience Corp). qPCR gene expression profiling. MCF7 cells were treated separately in triplicate. Equal amount total RNA was processed further for gene expression analysis.

Project description:We generated a single nuclei RNA-seq (snRNA-seq) dataset derived from the postnatal hypothalamus of CRH-IRESCre (CRH-Cre) mice using a retrograde Connect-seq approach.

Project description:Here we translationally profiled the transcriptome of Crh-expressing neurons (Crh neurons) within the CeA following fear conditioning (FC) and fear extinction (EXT) in mice using translating ribosome affinity purification (TRAP) followed by RNA sequencing. A tone alone group (TA) was used as a control group.

Project description:The identification of small molecules which either increase the number and/or enhance the activity of CD34+ hematopoietic stem and progenitor cells (HSPCs) during ex-vivo expansion has remained challenging. Applying an unbiased in vivo chemical screen in a transgenic (c-myb:EGFP) zebrafish embryo model, histone deacetylase inhibitors (HDACI) (valproic acid, resminostat and entinostat) were shown to significantly amplify the number of phenotypic hematopoietic precursors. The identified HDACIs were confirmed to significantly enhance also the expansion of human HSPCs during ex vivo treatment. Long-term functionality of ex vivo expanded human HSPCs was verified in a xenotransplantation model using NSG mice. However, the HDACI induced proliferation of HSPCs was associated with short-term functional changes. One of the identified hits, valproic acid (VPA), increased the adhesion capacity of CD34+ cells on primary mesenchymal stromal cells and reduced their chemokine-mediated migration capacity in vitro. In line with the reduced migratory potential in vitro, homing as well as early engraftment of VPA treated human CD34+ cells was significantly impaired in the xenotransplantation model. Our data confirms that HDACI treatment leads to a net expansion of HSPCs cells with long-term engraftment potential across different species. However impaired homing and short-term-engraftment has to be kept in mind when designing clinical transplantation protocols. In addition, our gene expression analysis (RNA-Seq) revealed expression of several genes that were altered in CD34+ cells by VPA treatment including cell adhesion molecules and Notch and wnt genes which has been shown to be involved in preservation of stem cell properties.

Project description:The low homing and engraftment efficiency especially in context of low availability of donor CD34+ HSPCs is a major challenge, which limits the clinical applications of HSC therapies. SDF-1/CXCR4 axis plays a principle role in the homing and engraftment of hematopoietic stem/progenitor cells. Activation of CXCR4 induces cell trafficking and homing to the marrow microenvironment, where it retains hematopoietic stem cells in close contact with marrow stromal cells. The aim of our study is to understand the mechanisms of other molecules acting along with CXCR4 to provide new insights in the regulation of cell phenotypes. This data shows the transcriptional profiling of human hematopoetic leukemic k562 cells comparing control, wild type and two different mutant cells where mutant cells have constitutively activated CXCR4 gene expression where mutant 1 and 2 have different aminoacid substituions.

Project description:poly(A)-selected mRNA-seq of circ-crh1(syb385), crh-1(n3315) versus wild-type (N2)

Project description:Association between Crh and autophagy in inflammatory bowel disease