Project description:There were similarities in the microRNA expression profiles in sheep model and idiopathic pulmonary fibrosis (IPF) suggest that bleomycin induced lung injuries share similar molecular mechanisms associated with the disease IPF

Project description:BackgroundIdiopathic pulmonary fibrosis (IPF) is a chronic progressive fibroproliferative disorder that has one of the poorest prognoses amongst interstitial lung diseases. Recently, the finding of aberrant expression levels of miRNAs in IPF patients has drawn significant attention to the involvement of these molecules in the pathogenesis of this disease. Clarification of the differential expression of miRNAs in health and disease may identify novel therapeutic strategies that can be employed in the future to combat IPF. This study evaluates the miRNA expression profiles in a sheep model for lung fibrosis and compares them to the miRNA profiles of both IPF patients and the mouse bleomycin model for pulmonary fibrosis. Pathway enrichment analyses were performed on differentially expressed miRNAs to illustrate which biological mechanisms were associated with lung fibrosis.ResultsWe discovered 49 differentially expressed miRNAs in the sheep fibrosis model, in which 32 miRNAs were significantly down regulated, while 17 miRNAs were significantly upregulated due to bleomycin-induced lung injury. Moreover, the miRNA families miR-29, miR-26, miR-30, let-7, miR-21, miR-19, miR-17 and miR-199 were aberrantly expressed in both sheep and mouse models, with similar differential miRNAs expression observed in IPF cases. Importantly, 18 miRNAs were aberrantly expressed in both the sheep model and IPF patients, but not in mice.ConclusionTogether with pathway enrichment analyses, these results show that the sheep model can potentially be used to characterize previously unrecognized biological pathways associated with lung fibrosis.

Project description:Cystic Fibrosis (CF) is associated with pathology in multiple tissues including the lung, digestive tract and reproductive system. Lung disease is primarily a post-natal event but other organs are affected before birth. Here we use the CF sheep model to investigate the initiation and progression of CF disease through gestation.

Project description:We perfomed a microRNA microarray on to assess differentially expressed miRNAs in bleomycin-induced lung fibrosis in mice. To induce pulmonary fibrosis, belomycine (Sigma-Aldrich, St Louis, MO) was dissolved and administred intratracheally at a dose of 1.5U/kg body weight. Control animals received saline only. 21 days post bleomycin treatment, mice were sacrificed and lung tissue were collected for RNA extraction and microRNA microarray.

Project description:An Infinium microarray platform (HorvathMammalMethylChip40) was used to generate DNA methylation data from n=168 blood samples of a transgenic sheep model of Huntington's disease. 84 transgenic sheep and age matched control sheep.

Project description:We aimed to evaluated the key microRNA-mRNA network associated with sheep muscle growth and development. We used RNA-Seq to obtain the smallRNA profiles of the longissimus muscle from the QHMM and STH. The results showed that a total of 153 known sheep miRNAs were identified, and 4 known sheep miRNAs were differently expressed. Combining mRNA library data, 26 target genes of 4 known miRNAs were selected and the miRNA–mRNA network was successfully built. GO and KEGG analysis showed that 26 target genes were significantly enriched in 86 biological processes, including muscle organogenesis, myoblast migration, cell proliferation, and adipose tissue development, and nine metabolic pathways, including carbohydrate, nucleotide, and amino acid metabolic pathways. The oar-miR-655-3p and target gene ACSM3, and oar-miR-381-5p and target gene ABAT were selected for subsequent analysis based on GO and KEGG analyses. The results suggested that the DEmiRNAs, especially oar-miR-655-3p and oar-miR-381-5p play crucial roles in muscle growth and development processes. This Integrative analysis of microRNA-mRNA analysis of QHMM and STH muscle is reported for the first time.

Project description:Cystic fibrosis (CF) intestinal disease is characterized by alterations in processes such as proliferation and apoptosis which are known to be regulated in part by microRNA’s. Herein, we completed microRNA expression profiling of the intestinal tissue from the cystic fibrosis mouse model of cystic fibrosis transmembrane conductance regulator (Cftr) deficient mice (BALBc/J Cftrtm1UNC), relative to that of wildtype littermates, to determine whether changes in microRNA expression level are part of this phenotype. We identified 24 microRNA's to be significantly differentially expressed in tissue from CF mice compared to wildtype, with the higher expression in tissue from CF mice. These data were confirmed with real time PCR measurements. A comparison of the list of genes previously reported to have decreased expression in the BALB x C57BL/6J F2 CF intestine to that of genes putatively targeted by the 24 microRNA’s, determined from target prediction software, revealed 20% of the gene expression profile to overlap with predicted targets. Pathway analysis identified these common genes to function in phosphatase and tensin homolog-, protein kinase A-, phosphoinositide-3 kinase/Akt- and peroxisome proliferator-activated receptor alpha/retinoid X receptor alpha signaling pathways, among others, and through real time PCR experiments genes of these pathways were demonstrated to have lower expression in the BALB CF intestine. We conclude that altered microRNA expression is a feature which putatively influences both metabolic abnormalities and the altered tissue homeostasis component of CF intestinal disease. Two condition experiment, Balbc/J Cftrtm1UNC -/- (Cystic Fibrosis (CF) Mice) and Balbc/J Cftrtm1UNC +/+ (Wild Type (WT) Mice). Biological Replicates: 7 WT, 8CF. Ileum Tissue.

Project description:microRNAs (miRNAs) play a critical biological role in a variety of pathophysiological processes by suppressing their target genes. However, little is known on the miRNAs expression profiles of lung tissues in silica-induced pulmonary fibrosis. To investigate miRNAs of interest in regulation of pulmonary fibrosis, total RNA was isolated from mice lungs collected at day 0, day 3, day 7, day 14, day 28 and day 56 after silica exposure. Then, miRNA microarray was performed with one mouse lung at each time point. miRNA microarray was performed with one mouse lung at day 0, day 3, day 7, day 14, day 28 and day 56 after silica exposure to investigate the miRNAs expression profiles of lung tissues in silica-induced pulmonary fibrosis. Mouse lung tissues were selected at each time point after treatment for RNA extraction and hybridization on Affymetrix microarrays. We sought to obtain homogeneous populations of lungs at each fibrotic stage in order to increase the temporal resolution of expression profiles. To that end, we hand-selected lung tissues according to morphological criteria at five time-points: before silica exposure, i.e. day 0 (D0), the early inflammation phase day 3 (D3) and day 7 (D7), the late inflammation phase, day 14 (D14), the fibrosis phase,i.e. day 28 (D28) and day (D56).

Project description:Lots of genes which regulate the proliferation and differentiation of sheep skeletal muscle are targets of microRNAs, so it is important that investigate the microRNA profile in sheep skeletal muscle to further understand the function of these genes. In this experiment, we used microarray to detect 364 miRNAs in sheep skeletal muscle and detemine the miRNAs that express at a high level in it.

Project description:microRNA expression profiles in Idiopathic Pulmonary Fibrosis (IPF)