Project description:We investigated how suppression of the most upstream microRNA–processing RNase, Drosha, affects the differentiation of human CD34+ hematopoietic stem–progenitor cells (HSPCs). We hypothesized that knock-down of Drosha would alter blood lineage development by modulating the expression of microRNAs. Lentiviral delivery to HSPCs of a short-hairpin targeting Drosha resulted in a viable phenotype with promotion of myeloid, and especially monocytic, maturation and suppression of apoptosis. Our results show that Drosha deficiency triggered a parallel upregulation of components of the RNAi machinery, including DGCR8, Dicer and Ago2. Deep sequencing analyses revealed global miRNA deficiency after Drosha short-hairpin treatment with relative maintenance of mature miR-223 expression. Restoration of miR-223 to normal levels after Drosha knock-down further enhanced monocytic maturation concomitant with the modulation of myeloid transcription factors that promoted monocytic differentiation. Our results support a miRNA accentuation model in which relative enhancement of miR-223 increases levels of PU.1 thereby promoting monocytic differentiation.
Project description:We investigated how suppression of the most upstream microRNA–processing RNase, Drosha, affects the differentiation of human CD34+ hematopoietic stem–progenitor cells (HSPCs). We hypothesized that knock-down of Drosha would alter blood lineage development by modulating the expression of microRNAs. Lentiviral delivery to HSPCs of a short-hairpin targeting Drosha resulted in a viable phenotype with promotion of myeloid, and especially monocytic, maturation and suppression of apoptosis. Our results show that Drosha deficiency triggered a parallel upregulation of components of the RNAi machinery, including DGCR8, Dicer and Ago2. Deep sequencing analyses revealed global miRNA deficiency after Drosha short-hairpin treatment with relative maintenance of mature miR-223 expression. Restoration of miR-223 to normal levels after Drosha knock-down further enhanced monocytic maturation concomitant with the modulation of myeloid transcription factors that promoted monocytic differentiation. Our results support a miRNA accentuation model in which relative enhancement of miR-223 increases levels of PU.1 thereby promoting monocytic differentiation. CD34+ HSPCs were isolated from umbilical cord blood and transduced with an empty lentivector (EV) or a lentivector encoding a short-hairpin RNA targeting the pri-miRNA–processing enzyme, Drosha (shDrosha). EV and shDrosha transduced HSPCs were grown in liquid culture promoting myelopoiesis and sampled on days 0 and 7 for total RNA collection. Total RNA was size fractionated to enrich for the small RNA population and deep sequenced using ABI's SOLiD 4.0 platform.
Project description:Expression analysis of gene expression changes in Homo sapiens SGC-7901 cells after knock down of MTA2 (Metastasis-associated protein) or overexpression SNHG5 (snoRNA host gene 5) Investigation of whole genome gene expression level changes in a Homo sapiens gastric carcinoma cells SGC-7901 after knock down MTA2 expression and upregulation of SNHG5
Project description:Investigation of whole genome gene expression level changes in Homo sapiens Esophageal squamous cell carcinoma cells KYSE30 after knock down of MTA2 gene expression
Project description:Investigation of whole genome gene expression level changes in a Homo sapiens Small cell lung carcinoma cells NCIH446 after knock down of Follitin1 gene expression
Project description:Expression analysis of gene expression changes in Homo sapiens SGC-7901 cells after knock down of MTA2 (Metastasis-associated protein) or overexpression SNHG5 (snoRNA host gene 5) Investigation of whole genome gene expression level changes in a Homo sapiens gastric carcinoma cells SGC-7901 after knock down MTA2 expression and upregulation of SNHG5 A four chip study using total RNA extracted from SGC-7901 cells transfected with siRNA negative control and SGC-7901 cells knock down of MTA2 with siRNA. Each chip measures the expression level of 45033 genes collected from the authoritative data source including NCBI
Project description:Gene expression profiling of immortalized human mesenchymal stem cells with hTERT/E6/E7 transfected MSCs. hTERT may change gene expression in MSCs. Goal was to determine the gene expressions of immortalized MSCs.
