Project description:We have generated transgenic mice expressing constitutively activated aryl hydrocarbon receptor (CA-AhR) to examine the biological consequences of AhR activation.. We used microarrays to identify genes that are regulated by AhR. Livers or intestines from three female mice were pooled at 5-6 week-old for RNA extraction and hybridization on Affymetrix Mouse Genome 430 2.0 Array.

Project description:Metabolic dysfunction-associated steatoheptaitis (MASH) is a chronic liver disease caused by prolonged poor diet. During MASH-induced chirrosis in humans and diet-induced MASH in murine models, T cells accumulated in the liver but their function in MASH is unresolved. We aimed to evaluated differences in T cell phenotype and T cell receptor (TCR) repertoire in T cells from the livers of diseased humans and murine models. This set contains mouse sequencing data.

Project description:Metabolic dysfunction-associated steatoheptaitis (MASH) is a chronic liver disease caused by prolonged poor diet. During MASH-induced chirrosis in humans and diet-induced MASH in murine models, T cells accumulated in the liver but their function in MASH is unresolved. We aimed to evaluated differences in T cell phenotype and T cell receptor (TCR) repertoire in T cells from the livers of diseased humans and murine models. This set contains human sequencing data.

Project description:Metabolic-associated steatohepatitis (MASH), the inflammatory stage of MASLD, will soon be one of the primary causes of liver-related complications, including advanced fibrosis and hepatocellular carcinoma. Its steady increase in both the US and the global population is devastating. Between the two genders, more women are suffering from MASH compared to the man due to estrogen deficiency caused by polycystic ovary syndrome or menopause. Our published data shows a clear positive association between the progression of liver disease and the expression of novel hexokinase HKDC1 in the liver. Targeting HKDC1, which is highly expressed in pathological hepatocytes (in MASH) but negligible in normal hepatocytes, represents a highly selective approach. Therefore, we hypothesized that liver-specific deletion of HKDC1 will protect against diet-induced obesity and the progression of MASH to fibrosis. We used an early-onset liver knockout (LKO) of HKDC1 by crossing HKDC1 floxed mice with Albumin Cre mice to test our hypothesis. We fed the Western Diet to HKDC1LKO female mice along with HKDC1 floxed mice (HKDC1fl/fl; as Controls) for 28 weeks. Our data shows that HKDC1 deletion significantly decreases body weight and fat mass compared to HKDC1fl/fl mice with no changes in food intake and energy expenditure. Knockout mice have better glucose tolerance and lower fasting glucose levels than HKDC1fl/fl mice. Our data also shows that the knockout group has smaller livers, healthier liver parameters, less steatosis, and lower NAS and fibrosis scores. Furthermore, HKDC1 knockout alters hepatic gene expression, and we found significantly low proinflammatory and profibrogenic gene expression in the LKO mice. Although we did not see any changes in triglyceride levels, there was a significant reduction of serum cholesterol concomitant with enhanced expression of cholesterol metabolism genes in the knockout group. Our data suggest a promising protective role of HKDC1 deletion against diet-induced obesity and MASH mice.

Project description:Liver-specific depletion of HDAC3 leads to liver steatosis (fatty liver), suggesting disregulation of lipid metabolism. This is correlated with changes in lipid metabolic gene expression. Livers depleted of HDAC3 were removed from 12 week old male HDAC3 fl/fl mice (loxP sites flanking exon 4 to 7 of the HDAC3 gene encoding the catalytic domain of HDAC3) one week after the injection of AAV2/8-Tbg-Cre virus. Livers from the HDAC3 fl/fl mice injected with AAV2/8-Tbg-GFP were used as normal controls.

Project description:We developed a GEMM in which AMPK can be inducibly activated in vivo (iAMPK mice). We provide here the data (RNA seq) on the transcriptional changes induced by AMPK activation in livers from mice fed a high-fat diet.

Project description:Total liver RNA extracts from adult male mice (8 weeks old, C57BL/6) subjected to Methionine and Choline Deficient Diet (regime duration: 6 weeks) and injected with monoclonal anti-ACBP/DBI (2 doses per week from week 4) were determinated to describe the therapeutic effects of neutrali-zation of ACBP/DBI to MASH-induced transcriptomic alterations.

Project description:Deletion of AMPK significantly extended the onset of leukemogenesis and depleted leukemia initiating cells (LICs). To identify how AMPK regulates LICs, we performed gene expression profiling of LICs isolated from AMPK wild type leukemic mice or AMPK-deficient leukemic mice. 4 groups were analyzed; 1) Whole leukemia (GFP+) from AMPK WT ( AMPKfl/fl) mice, 2) Whole leukemia (GFP+) from AMPK-deficient ( AMPK?/?l) mice, 3) LICs=L-GMP (GFP+,lin-,c-kit+, CD16/32+,CD34+) cells from AMPK WT ( AMPKfl/fl) mice, 4) LICs=L-GMP (GFP+,lin-,c-kit+, CD16/32+,CD34+) cells from AMPK-deficient ( AMPK?/?l) mice.

Project description:We profiled the transcriptomes and genome-wide H3K4me1, H3K27Ac, and H3K4me3 (chow diet only) enrichments from chow diet and 16 week high-fat diet-fed mouse livers.

Project description:We explore whether a low-energy diet intervention for Metabolic dysfunction-associated steatohepatitis (MASH) improves liver disease by means of modulating the gut microbiome. 16 individuals were given a low-energy diet (880 kcal, consisting of bars, soups, and shakes) for 12 weeks, followed by a stepped re-introduction to whole for an additional 12 weeks. Stool samples were obtained at 0, 12, and 24 weeks for microbiome analysis. Fecal microbiome were measured using 16S rRNA gene sequencing. Positive control (Zymo DNA standard D6305) and negative control (PBS extraction) were included in the sequencing. We found that low-energy diet improved MASH disease without lasting alterations to the gut microbiome.