Project description:We perform scRNA-seq in the livers of C57BL/6 mice fed a CD-HFD or control diet for 3 months (NAFLD), 6 months (NASH) or 15 months (HCC)

Project description:Genomic DNA was extracted from tumors that developed in C57BL/6 mice fed with CD-HFD for 12 months alone or fed with CD-HFD for 12 months followed by 8 weeks of treatment with anti-PD-1. DNA extracted from five pooled tail-clips of C57BL/6 mice was used as reference DNA.

Project description:The liver is key for maintaining metabolic homeostasis between feeding and fasting in healthy conditions. However, this is dysregulated during high fat diet feeding. What are the transcriptomic changes required for rapid adaptation of the liver to respond to feeding and fasting and how is this altered in the development of metabolic disease?

Project description:We perform scRNA-seq in the livers of C57BL/6 mice fed a CD-HFD for 15 months. Starting from the 13M, mice were treated with FABP5 inhibitor to ameliorate HCC.

Project description:Regulation of nutrient status during fasting and refeeding plays an important role in maintaining metabolic homeostasis in the liver. Thus, we investigated the impact of the physiological fed–fasted–refed cycle on hepatic gene expression in nutrient-sensitive mice. We performed transcriptomic analysis of liver samples in fed, fasted and refed groups of mice. Through mRNA-sequencing (RNA-Seq) and miRNA-Seq, we compared fasted and fed states (fasted versus fed cohort) as well as refed and fasted states (refed versus fasted cohort) to detect dynamic alterations of hepatic mRNA– miRNA expression during the fed–fasted–refed cycle

Project description:Regulation of nutrient status during fasting and refeeding plays an important role in maintaining metabolic homeostasis in the liver. Thus, we investigated the impact of the physiological fed–fasted–refed cycle on hepatic gene expression in nutrient-sensitive mice. We performed transcriptomic analysis of liver samples in fed, fasted and refed groups of mice. Through mRNA-sequencing (RNA-Seq) and miRNA-Seq, we compared fasted and fed states (fasted versus fed cohort) as well as refed and fasted states (refed versus fasted cohort) to detect dynamic alterations of hepatic mRNA– miRNA expression during the fed–fasted–refed cycle

Project description:Zebrafish larvae fed on HFD

Project description:In this study we want to compare the gene expression profile of CD44+CXCR6+ CD8+ T cells from the liver of ND and CD-HFD mice with hepatic CD44+CXCR6neg and splenic CD44+ CX3CR1neg CD8 T cells of ND and CD-HFD mice. This comparison will reveal transcriptional signatures of hepatic CD44+CXCR6+ CD8+ T cells in CD-HFD responsible for causing liver pathology in NASH.

Project description:To investigate the effect of diet and Yap KD on liver matastasis, we injected MC38 cells in LFD-fed or HFD-fed mice, and MC38 with shCon or shRNA for Yap (shYap1) in HFD-fed mice We then performed gene expression profiling analysis using data obtained from RNA-seq of these 4 different conditions

Project description:High-throughput scRNA-seq transcriptionally profiled an estimated 15093 cells from CD islets and 18906 from HFD islets. The mean number of reads per sequenced cell was 43,301 for CD islets and 33,867 for HFD islets, while the median number of genes per sequenced cell was 2105 and 1775, respectively.