Project description:Autophagy deficiency caused by conditional knockout of Atg7 results in severe hepatitis accompanied by abundant accumulation of p62. p62 stablizes Nrf2 by disrupting the association between Keap1 and Nrf2. To understand the pathogenesis of hepatitis under the autophagy deficiency, we examined gene expression profiles of livers from Atg7-null, Nrf2-null and Atg7-Nrf2 double mutant mice. Eight week old Atg7F/F:Mx1-Cre mice and Atg7F/F:Mx1-Cre:Nrf2-/- together with control mice were injected with pIpC. At 4 weeks after pIpC injection, total RNAs were purified from each mouse liver.
Project description:Autophagy deficiency caused by conditional knockout of Atg7 results in severe hepatitis accompanied by abundant accumulation of p62. p62 stablizes Nrf2 by disrupting the association between Keap1 and Nrf2. To understand the pathogenesis of hepatitis under the autophagy deficiency, we examined gene expression profiles of livers from Atg7-null, Nrf2-null and Atg7-Nrf2 double mutant mice.
Project description:Engrams are considered to be substrates for memory storage, and the functional dysregulation of the engrams leads to cognition impairment.However, the cellular basis for these maladaptive changes lead to the forgetting of memories remains unclear. Here we found that the expression of autophagy protein 7 (Atg7) mRNA was dramatically upregulated in aged DG engrams, and led to the forgetting of contextual fear memory and the activation of surrounding microglia.To determine mechanism by which autophagy in DG engrams activates the surrounding microglia, mice were co-injected AAV-RAM-Cre either with AAV-Dio-Atg7-Flag or AAV-Dio- EYFP in dorsal dentate gyrus to overexpress ATG7 in the DG memory engrams. Microglia were separated using magnetic-activated cell sorting and subjected to RNA-Seq in dorsal hippocampus .Bioinformatics analysis shown overexpression of Atg7 in dorsal DG memory engrams caused an increase in the expression of Tlr2 in the surrounding microglia.Depletion of Toll-like receptor 2/4 (TLR2/4) in DG microglia prohibited excessive microglial activation and synapse elimination induced by the overexpression of ATG7 in DG engrams, and thus prevented forgetting. Furthermore, the expression of Rac1, a Rho-GTPases which regulates active forgetting in both fly and mice, was upregulated in aged engrams. Optogentic activation of Rac1 in DG engrams promoted the autophagy of the engrams, the activation of microglia, and the forgetting of fear memory. Invention of the Atg7 expression and microglia activation attenuated forgetting induced by activation of Rac1 in DG engrams. Together, our findings revealed autophagy-dependent synapse elimination of DG engrams by microglia as a novel forgetting mechanism.
Project description:To investigate the differences in microRNA expression profiles between fibrotic and normal livers, we performed microRNA microarrays for total RNA extracts isolated from mouse livers treated with carbontetrachloride (CCl4) or corn-oil for 10 weeks (n=3/group). MicroRNAs were considered to have significant differences in expression level when the expression difference showed more than two-fold change between the experimental and control groups at p<0.05. We found that 12 miRNAs were differentially expressed in CCl4-induced fibrotic liver.
Project description:Metabolic-associated steatohepatitis is a progressive fatty liver disease caused, in part, by hepatocyte stress linked to cholesterol overload. Counteracting this stress may be beneficial but there is insufficient understanding of underlying stress defenses to develop a therapeutic strategy. Here, we aimed to elucidate how stress-adaptive transcription factors, nuclear factor erythroid 2 related factor-1 (NRF1) and -2 (NRF2), counteract hepatic cholesterol overload and determine whether they function cooperatively. C57bl/6 mice were fed high fat, fructose, and cholesterol diet (HFFC). Expression profiling and phenotypic analyses were done on liver of mice with adult-onset and hepatocyte-specific deficiency of NRF1, NRF2, or both, and results compared to control. Chromatin immunoprecipitation (ChIP) sequencing was done and combined with expression profiles to identify genes that NRF1 and NRF2 interact with and regulate in vivo. Three weeks HFFC diet feeding to mice with NRF1 and NRF2 deficiency caused severe steatohepatitis and increased hepatic cholesterol storage. These outcomes did not occur in single gene-deficient mice or control. Expression profiling at a time preceding hepatic cholesterol overload and ChIP sequencing profiling revealed complementary gene regulation by NRF1 and NRF2 to promote cholesterol excretion and mitigate hazardous metabolic biproducts generated from converting cholesterol to bile acid. Consequently, combined gene deficiency, and not single-gene deficiency, increased liver oxidized protein level, decreased cholesterol in bile, and increased unconjugated bile acid in liver and bile. We discover, for the first time, that NRF1 and NRF2 work together to protect liver against damaging effects of excess cholesterol. Targeting these combined actions may prove an effective therapeutic strategy
Project description:Analysis of gene expression profiles is an attractive method for discovering how animals respond to environmental challenges in nature. Compared to low altitudes, high altitudes are characterized by reduced partial pressures of oxygen (hypoxia) and cooler ambient temperatures To better understand how mammals cope with high altitudes, we trapped wild house mice (Mus musculus domesticus) from 3 populations in La Paz, Bolivia (3000 - 3600 m) and 3 populations in Lima, Peru (0 – 200 m). Affymetrix GeneChip® Mouse Genome 430 2.0 Arrays were use to measure mRNA abundance in the livers of these mice.