Project description:We tested the hypothesis that circulating microRNAs (miRNAs) present in plasma might display a specific signature in patients with intracerebral hemorrhage (ICH). Global miRNA profiles were determined with the Agilent Human miRNA Microarray platform, 027233. ICH patients display a characteristic inflammation-related miRNA profile as compared to healthy controls. Plasma samples were collected from the following 6 subject groups: male ICH patients (n=8), female ICH patients (n=7), male healthy control (n=4), female healthy control (n=4), male ischemic stroke patients (n=8) and female ischemic stroke patients (n=8). Total RNAs isolated from 1 ml plasma were pooled for each group. A fixed volume of RNA sample was withdrawn from each pool and used for microarray detection.

Project description:To identify the miRNA that potentially promote the maturation of Embryonic Stem Cells-Derived Cardiomyocytes, we performed miRNA assay profiling to further know the miRNA expression that differentially expressed after coculture with endothelial cells To further know the miRNA expression that differentially expressed after coculture with endothelial cells, we performed miRNA assay profiling to identify the miRNA that potentially promote the maturation of Embryonic Stem Cells-Derived Cardiomyocytes Embryonic Stem Cells-Derived Cardiomyocytes were re-sorted from coculture system with GFP promoter

Project description:MicroRNA (miRNA/miR) miR526b and miR655 overexpressed tumor cell-free secretions promote breast cancer phenotypes in the tumor microenvironment (TME). However, the mechanisms of miRNA regulating TME have never been investigated. With mass spectrometry analysis of MCF7-miRNA-overexpressed versus miRNA-low MCF7-Mock tumor cell secretomes, we identified 34 novel secretory proteins coded by eight genes YWHAB, TXNDC12, MYL6B, SFN, FN1, PSMB6, PRDX4, and PEA15 those are differentially regulated. We used bioinformatic tools and systems biology approaches to identify these markers’ role in breast cancer. Gene ontology analysis showed that the top functions are related to apoptosis, oxidative stress, membrane transport, and motility, supporting miRNA-induced phenotypes. These secretory markers expression is high in breast tumors, and a strong positive correlation exists between upregulated markers’ mRNA expressions with miRNA cluster expression in luminal A breast tumors. Gene expression of secretome markers is higher in tumor tissues compared to normal samples, and immunohistochemistry data supported gene expression data. Moreover, both up and downregulated marker expressions are associated with breast cancer patient survival. miRNA regulates these marker protein expressions by targeting transcription factors of these genes. Premature miRNA (pri-miR526b and pri-miR655) are established breast cancer blood biomarkers. Here we report novel secretory markers upregulated by miR526b and miR655 (YWHAB, MYL6B, PSMB6, and PEA15) are significantly upregulated in breast cancer patients’ plasma, and are potential breast cancer biomarkers.

Project description:To find novel circulating markers associated with prognosis of interferon therapy,We performed microarray analysis of plasma samples in 94 chronic hepatitis B patients Ninety four HBV patients, who underwent PEG-IFN or conventional interferon treatment were enrolled. Their plasma samples before treatment were collected and subject to miRNA array analysis. miRNA profiles from 13 formalin fixed formaldehyde embedded liver biopsy samples were also analyzed to evaluate the correlation between liver and plasma.

Project description:The regulation of host defense against influenza A viruses (IAVs) infection has attracted much attention, especially for type I interferon (IFN)-mediated innate response. Here we revealed that miR-93 expression was significantly downregulated in Alveolar epithelial type II cells (AT2) upon IAVs infection through RIG-I/JNK pathway. Inhibition of miR-93 was found to suppress host antiviral innate response by facilitating type I IFN effector signaling, and JAK1 was identified to be directly targeted by miR-93. Importantly, in vivo administration of miR-93 antagomiR significantly inhibited miR-93 expression and markedly suppressed IAVs infection, which in turn prevented the death of IAVs infected mice. Hence, the inducible downregulation of miR-93 suppress IAVs infection by upregulation IFN-JAK-STAT effector pathway, and in vivo inhibition of miR-93 bears considerable therapeutic potential for suppressing IAVs infection. The miRNA profiling in mice lung was measured at 24 and 36 hours after gave each mouse 50µl of influenza A (50 µl of 10-6 TCID50/µl) via retropharyngeal instillation. Three mice were performed at each time (24 or 36 hours) and RNA from different donors was mixed before determination.

Project description:HT29 cells was infected with EV71 at MOI 1 or nil respectively and harvested at 36hpi We use miRNA microarray to profile and identify miRNA which are up or down regulated due to EV71 infection 3 biological replicate (6 samples)

Project description:We aimed to identify muscle-specific common miRNA profile associated with the etiopathogenesis of sporadic ALS (sALS). For this purpose, we isolated total RNA from the skeletal muscle tissues of 10 sALS patients and 5 control individuals, and miRNA expression of sALS patients and controls were analyzed using Affymetrix GeneChip miRNA 4.0 Array. In order to find out differentially expressed miRNAs, we used The Institute for Genomic Research-Multi Experiment Viewer(MeV) tool. Differentially expressed miRNAs that were found to be statistically significant (with parameters, fold change ≥2.0, and FDR=0 for MeV-SAM analysis) were identified as the potential miRNA candidates.

Project description:In this study, we aim to identify common miRNA signatures in the pathogenesis of different NMD groups (Duchenne Muscular Dystrophy, Megaconial Congenital Muscular Dystrophy (CMD), Ullrich CMD and alpha-dystroglycanopathy) (abbreviated as D, M, U, and A, respectively) each caused by mutations in different genes encoding proteins with distinct roles. For this purpose, we isolated miRNAs from the skeletal muscle tissues of three patients from four disease groups and three control individuals (15 individuals in total) and we performed miRNA microarray method (Affymetrix GeneChip miRNA 4.0 Array). In order to find out differentially expressed miRNAs in patients, we analyzed raw data by two different databases. Differentially expressed miRNAs that were found to be statistically significant by using both the programs (with parameters, fold change ≥2.0 and FDR=0 for MeV-SAM analysis; and p<0.05 for TAC-ANOVA analysis) were identified as the potential miRNA candidates.

Project description:To further analyze the change of microRNA(miRNA) between normal peritoneal macrophage(PEC) and TAM from early tumor(12 days after 4T1 cell injection) or TAM from late tumor(21 days after 4T1 cell injection) , we employed Agilent mouse microRNA microarray Rel 12.0 as a discovery platform to identify miRNAs Total RNA from peritoneal macrophage and TAM of early tumor (tumor formed for 12days after BALB/c mice injected wth 4T1 cell) or TAM of late tumor(tumor formed for 21days after BALB/c mice injected with 4T1 cell) were extracted and analyzed using Agilent mouse microRNA microarray platform, and changes of miRNA were screened out. Agilent mouse microRNA microarray is designed for the profiling of mouse miRNA .627 mouse miRNA and 39 mouse virus-related miRNA can be detected by our microRNA microarray.

Project description:To identify key biological pathways that define toxicity or biocompatibility after nanoparticle exposure, three human cell types were exposed in vitro to two high aspect ratio nanoparticles for 1 hr or 24 hr and collected for global transcriptomics. Transcriptional responses were measured by global microarray analysis of cells in culture. Groups (N=3 biological replicates) of Caco-2/HT29-MTX cells exposed to 0, 10 or 100 ug/ml MWCNT or TiO2-NB nanoparticles for 1 or 24 hr.