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Project description:Non-alcoholic steatohepatitis (NASH), has emerged as a major cause of liver failure and hepatocellular carcinoma. Although decades of studies have improved our understanding of its pathophysiology, the molecular mechanisms are still incompletely understood. In the current study, using a diet-induced mouse model of NASH, we performed RNA Sequencing analysis to reveal molecular features of NASH progression. As a result, we obtained hepatic genome-wide mRNA expression in the livers from two groups of mice (NASH versus Normal).Using FDR < 0.01 and fold change > 2 as the threshold, we identified 1745 differentially expressed genes (DEGs) in the livers of NASH mice relative to the normal control mice, of which 1484 up-regulated and 261 down-regulated. The top 5 up-regulated genes included the genes encoding for Trem2, Lcn2, Ephb2, Mmp12 and Sprr1a.Gene ontology (GO) analysis showed that the up-regulated genes in NASH mice were mainly enriched in biological processes such as response to biotic stimulus, regulation of immune system process and myeloid leukocyte activation, while down-regulated genes were related to organonitrogen compound biosynthetic process and organic acid metabolic process.KEGG pathway enrichment results showed that up-regulated genes were mainly enriched in toll like receptor signaling, regulation of actin cytoskeleton, leukocyte transendothelial migration, chemokine signal pathway as well as cytokine and cytokine receptor interaction, while down-regulated gene clusters were mainly enriched in and steroid biosynthetic as well as glycine serine and threonine metabolism.Meanwhile, as expected, genes involved in hepatic lipogenesis (Srebp-1c, Fasn and Scd-1), lipid absorption (CD36), inflammation (Tnfa, IL1b and Ccl2), and fibrosis (Col1a1, Tgfb1 and Mmp13), are up-regulated in NASH mice.Our study may help to uncover NASH molecular basis and provide therapeutic targets for its treatment.

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Project description:Recent studies have identified a genetic variant rs641738 near two genes encoding membrane bound O-acyltransferase domain-containing 7 (MBOAT7) and transmembrane channel-like 4 (TMC4) that associate with increased risk of non-alcoholic fatty liver disease (NAFLD), non-alcoholic steatohepatitis (NASH), alcohol-related cirrhosis, and liver fibrosis in those infected with viral hepatitis1-7. Based on hepatic expression quantitative trait loci analysis it has been suggested that MBOAT7 loss of function promotes liver disease progression1-7, but this has never been formally tested. Here we show that Mboat7 loss, but not Tmc4, in mice is sufficient to promote the progression of NAFLD in the setting of high fat diet. Mboat7 loss of function is associated with accumulation of its substrate lysophosphatidylinositol (LPI) lipids, and direct administration of LPI promotes hepatic inflammatory and fibrotic transcriptional changes in an Mboat7-dependent manner. These studies reveal a novel role for MBOAT7-driven acylation of LPI lipids in suppressing the progression of N To assess the role of MBOAT7 loss of function in NAFLD and NASH. We injected the substrate of MBOAT7, lysophosphatidylinostiol 18:0, or Saline in the portal vein of mice. The livers were then snap frozen and a standard RNA isolation was run to assess transcriptome changes after the addition of LPI's for six hours.