Project description:High altitude environments are characterized by the unique and unavoidable stress of chronic hypoxia. While much is known about gene expression responses to acute or in vitro hypoxia, less is known about the gene expression profiles of animals exposed to systemic chronic hypoxia, such as that experienced at high elevations. Here we simulated the hypoxic environment of two high altitude elevations,and a third chamber recieved ambient Reno air. Mice were housed in the hypoxic chambers for 32 days. We used microarrays to characterize the differential gene expression in the livers of mice housed in hypoxic environment of 4500 m versus 3000 and 1400 m. We used this data to draw hypotheses related to novel physiological responses to chronic systemic hypoxia
Project description:High altitude environments are characterized by the unique and unavoidable stress of chronic hypoxia. While much is known about gene expression responses to acute or in vitro hypoxia, less is known about the gene expression profiles of animals exposed to systemic chronic hypoxia, such as that experienced at high elevations. Here we simulated the hypoxic environment of two high altitude elevations,and a third chamber recieved ambient Reno air. Mice were housed in the hypoxic chambers for 32 days. We used microarrays to characterize the differential gene expression in the livers of mice housed in hypoxic environment of 4500 m versus 3000 and 1400 m. We used this data to draw hypotheses related to novel physiological responses to chronic systemic hypoxia Experiment Overall Design: Mice were housed one of three chambers; the first received ambient Reno air (1400 m) and the other two received air mixed with nitrogen such that one chamber simulated the hypoxic environment of 3000 m and the third chamber simulated hypoxic environment of 4500 m. Twelve mice were housed in each chamber for 32 days. Liver were extracted, and RNA from livers of 4 mice were pooled such that each treatment was represented by 3 pooled samples. Eight of the nine arrays were used for data analysis; one array was excluded as several Affymetrix quality control metrics indicated data quality that was not reliable.
Project description:Under hypoxic exposure in rats, activation of VEGF/Notch pathway may lead to pulmonary angiogenesis, and the expression of related proteins may be associated with down-regulation of miRNAs. We used microarrays to screen out miRNAs related to VEGF/Notch pathway in hypoxic exposure, and in this process, we found genes with a downregulation trend with prolonged exposure time.
Project description:To identify genes involved in survival to prolonged hypoxia we exposed HCT116 to hypoxia for 3 days. Control cells were exposed to normoxic conditions.
Project description:In order to study the gene expression profile in C57Bl/10 mouse blood, we exposed three different groups of animals. First was exposed to PO2 21% or normoxia. The second was exposed to chronic hypoxia (from PO2 21% to PO2 8%) and the third was also exposed to the same chronic hypoxia (CH) protocol but followed by two weeks under normoxia, and called as recovery group. The blood was extracted from inferior vena cava, the RNA was extracted, amplified and hybridized to Affimetrix MOE 430 V2.o chip. The results were analyzed using Partek Genome suite software. Using two fold cuttoff and 0% FDR parameters, we observed genes 512 diferentially expressed, of which one gene was up-regulated in both hypoxic and recovery condition, 202 were up-regulated during CH and then down-regulated after the recovery, 18 genes were down-regulated afteh CH and the up-regulated after recovery, ans finally 9 genes were down-regulated in both CH and recovery conditions.
Project description:Proteomics quantitative analysis of lung tissues from silica-exposed rats to reveal the pathogenesis of silicosis and provide potential therapeutic targets.
Project description:In order to study the gene expression profile in C57Bl/10 mouse blood, we exposed three different groups of animals. First was exposed to PO2 21% or normoxia. The second was exposed to chronic hypoxia (from PO2 21% to PO2 8%) and the third was also exposed to the same chronic hypoxia (CH) protocol but followed by two weeks under normoxia, and called as recovery group. The blood was extracted from inferior vena cava, the RNA was extracted, amplified and hybridized to Affimetrix MOE 430 V2.o chip. The results were analyzed using Partek Genome suite software. Using two fold cuttoff and 0% FDR parameters, we observed genes 512 diferentially expressed, of which one gene was up-regulated in both hypoxic and recovery condition, 202 were up-regulated during CH and then down-regulated after the recovery, 18 genes were down-regulated afteh CH and the up-regulated after recovery, ans finally 9 genes were down-regulated in both CH and recovery conditions. Each group of C57Bl/10 mouse had 4 individuals and they were divided into three different groups of animals. First was exposed to PO2 21% or normoxia for 14 days. The second was exposed to chronic hypoxia (from PO2 21% to PO2 8%) and the third was also exposed to the same chronic hypoxia (CH) protocol but followed by two weeks under normoxia, and called as recovery group. After the exposure period, the animals were anaesthetized with a mix of Ketamine (100 mg/mL) and xylasine (20 mg/mL) in a proportion of 1:1. A incison was made on abdominal area and from kidneis and liver area of inferior vena cava venus blood was collected The blood was extracted from inferior vena cava. Then, the RNA was extracted, amplified and hybridized to Affimetrix MOE 430 V2.o chip. The results were analyzed using Partek Genome suite software. Using two fold cuttoff and 0% FDR parameters, we observed genes 512 diferentially expressed, of which one gene was up-regulated in both hypoxic and recovery condition, 202 were up-regulated during CH and then down-regulated after the recovery, 18 genes were down-regulated afteh CH and the up-regulated after recovery, ans finally 9 genes were down-regulated in both CH and recovery conditions.
Project description:To identify genes involved in survival to prolonged hypoxia we exposed HCT116 to hypoxia for 3 days. Control cells were exposed to normoxic conditions. HCT116 colon cancer cells were serum starved and exposed to hypoxia (1%O2) or normoxia (21%O2) for 3 days.
Project description:Adult Cardiac hypoxia as a crucial pathogenesis factor can induce detrimental effects on cardiac injury and dysfunction. The global transcriptome and translatome reflecting the cellular response to hypoxia have not yet been extensively studied in myocardium. In this study, adult rats were subjected to acute normobaric hypoxia at 10% oxygen with 10 min (mild hypoxia) and 30 min (severe hypoxia). Rat H9C2 cardiomyocytes were treated with the culture condition (1% O2, 94% N2, and 5% CO2) for mild hypoxia (8 hr) and severe hypoxia(24 hr). We then conducted RNA-seq and Ribo-seq in non-infarcted left ventricular myocardial tissues and H9C2 cells exposed to different periods of hypoxia stress in vivo and in vitro.