Project description:In order to investigate the role of DDX21 in RNA activation by miR-34a, next-generation sequencing analysis of RNA extracted from miR-34a transfected H1299 and DDX21 knock-out cell line was performed.
Project description:Analysis NCI-H1299 lung cancer cells transfected with synthetic oligo mimics for microRNAs (miRNAs) miR-34a and ghR-34a. We developed a 30-nucleotide single-strand RNA (ssRNA), termed “guide hairpin RNA (ghR),” that has a physiological function similar to that of miRNA and siRNA. The ghR caused no innate cytokine response either in vitro or in vivo. In addition, its structure does not contain a passenger strand seed sequence, reducing the potential for off-target effects relative to existing short RNA reagents. Systemic injection of ghR-form miR-34a (ghR-34a) suppressed tumor growth in a mouse model of RAS-induced lung cancer. Furthermore, ghR-34a functioned in a Dicer- and Ago2-independent manner. This novel RNAi technology may provide a novel, safe, and effective nucleic acid drug platform that will increase the clinical usefulness of nucleic acid therapy.
Project description:Analysis NCI-H1299 lung cancer cells transfected with synthetic oligo mimics for microRNAs (miRNAs) miR-34a and ghR-34a. We developed a 30-nucleotide single-strand RNA (ssRNA), termed “guide hairpin RNA (ghR),” that has a physiological function similar to that of miRNA and siRNA. The ghR caused no innate cytokine response either in vitro or in vivo. In addition, its structure does not contain a passenger strand seed sequence, reducing the potential for off-target effects relative to existing short RNA reagents. Systemic injection of ghR-form miR-34a (ghR-34a) suppressed tumor growth in a mouse model of RAS-induced lung cancer. Furthermore, ghR-34a functioned in a Dicer- and Ago2-independent manner. This novel RNAi technology may provide a novel, safe, and effective nucleic acid drug platform that will increase the clinical usefulness of nucleic acid therapy. MiR-34a–targeted mRNAs regulated by mRNA degradation rather than translational inhibition were identified using microarray data from miR-34 and ghR-34a transfectants.
Project description:To clarify the effect of miRNAs, we carried out a gene expression microarray analysis using GIST-T1 cells transfected with a miR-34a mimic or a negative control. We found that 2,621 probe sets (1,933 unique genes) were downregulated (>1.5-fold) by ectopic miR-34a expression, including PDGFRA gene which was previously reported as a miR-34a target gene. GIST-T1 cells were transfected with a mirVana miR-34a mimic (Ambion) or mirVana miRNA mimic Negative Control #1 (Ambion). Forty-eight hours after transfection, total RNA extraction was carried out, and gene expression signatures were analyzed.
Project description:To clarify the effect of miRNAs, we carried out a gene expression microarray analysis using GIST-T1 cells transfected with a miR-34a mimic or a negative control. We found that 2,621 probe sets (1,933 unique genes) were downregulated (>1.5-fold) by ectopic miR-34a expression, including PDGFRA gene which was previously reported as a miR-34a target gene.
Project description:To compare the differential gene expression between oral squamous cancer cells stably overexpression of miR-34a and cells transfected with control vectors.
Project description:Gene expression for NCI-H1299 cell line transfected with human DENND2D and vector (pcDNA3.1/V5-His TOPO TA vector) respectively. The microarray experiment was designed to perform four replicates for each H1299-DENND2D and H1299-vector sample. cRNA used in replication 1 and 2 was from the same label reaction to perform the hybridization replicates.
Project description:miR-34a is strongly induced upon TPA-induced megakaryocyte differentiation of K562 cells. To investigate the gene networks regulated by this miRNA during the process of differentiation we performed gene microarray analysis in K562 cells overexpressing miR-34a or a control sequence. Experiment Overall Design: K562 cells were transfected by nucleofection (Amaxa) with a miR-34a mimic (Dharmacon) or a control sequence with no homology to human genes. 24 hours post-transfection total RNA was extracted using trizol and hybridized on Affimetrix microarrays for comparing gene expression.
Project description:miR-34a and miR-34c were found up-regulated at wound-edges of human venous ulcer compared to nomal wound and the intact skin; however their biological role in keratinocytes during wound repair has not been studied. To study the genes regulated by miR-34a and miR-34c, we transfected miR-34a and miR-34c mimic into human primary epidermal keratinocytes to overexpress them. We performed a global transcriptome analysis of keratinocytes upon overexpression of miR-34a or miR-34c using Affymetrix arrays.