Project description:Mouse Gsr-null liver transcriptome

Project description:Genetic disruption of Gsr in mouse elicits only subtle changes in the liver transcriptome. Transcriptome analysis of Gsr-null livers was performed to further our understanding of pathways that may compensate for loss of Gsr, one of the two NADPH-dependent cytosolic disulfide reductases.

Project description:Liver-specific depletion of both of the cytosolic NADPH-dependent disulfide reductases, TrxR1 and Gsr, was shown to result in increased activation of Nrf2 as compared to elimination of either of these enzymes alone. Activation of transcription factor Nrf2 and its downstream cytoprotective target genes by oxidative and electrophilic insults can protect cells from potentially carcinogenic damage. However, many cancers have an activated Nrf2 response, which can protect cancer cells from oxidative stress radiation. Gene expression profiles in TrxR1/Gsr-null livers provide a basis for understanding the complex responses to chronically elevated oxidative stress and damage.

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:Elevated Nrf2 response in TrxR1/Gsr-null livers

Project description:Transcriptional profiling of mouse liver of PPARgamma null mice

Project description:Regulation between the fed and fasted state in mammals is partially controlled by peroxisome proliferator activated receptor-alpha (PPAR-alpha). Expression of the receptor is high in liver, heart and skeletal muscle, but decreases with age. A combined 1H NMR spectroscopy and GC-MS metabolomic approach has been used to examine metabolism in liver, heart, skeletal muscle and adipose tissue in PPAR-alpha null mice and wild type controls during ageing between 3-13 months. For the PPAR-alpha-null mouse multivariate statistics highlighted hepatic steatosis, reductions in the concentrations of glucose and glycogen in both liver and muscle tissue, and profound changes in lipid metabolism in each tissue, reflecting known expression targets of the PPAR-alpha receptor. Hepatic glycogen and glucose also decreased with age for both genotypes. These findings indicate the development of age related hepatic steatosis in the PPAR-alpha-null mouse, with the normal metabolic changes associated with ageing exacerbating changes associated with genotype. Furthermore, the combined metabolomic and multivariate statistics approach provides a robust method for examining the interaction between age and genotype. </p> The GC-MS assay for this study can be found in the MetaboLights study MTBLS314.

Project description:AJS-ESI and nano-ESI source comparision of 2ug HeLa digest. Differential liver proteome via AJS-ESI of 11-wk NPC1 null mouse.

Project description:Gsr is an antioxidant enzyme responsible for maintaining the supply of reduced glutathiones which reduce reactive oxigen species and maintain cellular redox balance. However, the the role for Gsr in the developemnt of oxidative lung injury is not well characterized. We used microarray analysis to identify Gsr-dependent genes and pathways in embyronic, neonate, and adult lungs. We also determined Gsr-dependent lung transcriptomics in mouse neonates and adults which were neonatally exposed to hyperoxia (O2) or air.

Project description:Mouse Transcriptomes