Project description:Krüppel-like factor 6 (KLF6) is a transcription factor and tumor suppressor. Loss or reduction of KLF6 is linked with progression of experimental and human hepatocellular carcinoma. Despite its important contributions to liver homeostasis and growth, there are no data characterizing the involvement of KLF6 to hepatic regeneration. Microarray data from wildtype and DeltaKlf6 mice were used to identify regulating mechanisms and potential mediators within liver regeneration Wildtype and hepatocyte specific Klf6 knockout mice (DeltaKlf6) were employed for 70% partial liver resection/hepatectomy (PHx) in order to analyse liver regeneration. Twelve hours after partial hepatectomy animals were scrificed and remnant liver tissue was used for further experiemnts. For the overall study we used 6 animals per group, and included RNA from liver tissue of 3 wildtype and 3 DeltaKlf6 animals for the microarray analysis. Wildtype animals were used as controls.

Project description:miRNA expression was profiled before and during liver regeneration following 2/3 partial hepatectomy (PHx) in chronic ethanol-fed (EtOH) and pair-fed carbohydrate control (CHO) rats. Prior to PHx, EtOH animals were fed a liquid diet containing 36% of the calories from ethanol for 5 weeks. Left lateral and medial (LLM) lobes were removed at time of PHx and used as t = 0 biological controls. Remnant liver tissue (PHx) was harvested 1 h, 6 h, 12 h, and 24 h after PHx. RNA from 4 biological replicates was pooled for profiling miRNA expression on Agilent Rat miRNA Microarrays v1.0. miRNA expression was profiled in the chronic ethanol-fed (EtOH) and carbohydrate control pair-fed (CHO) liver prior to (LLM) and 1 h, 6 h, 12 h, and 24 h after partial hepatectomy (PHx).

Project description:The transcription factor Nuclear factor erythroid 2-related factor 2 (Nrf2) regulates an array of cytoprotective genes, yet studies in transgenic mice have led to conflicting reports on its role in liver regeneration. We aimed to test the hypothesis that pharmacological activation of Nrf2 would enhance liver regeneration. Wild type (WT) and Nrf2 null mice were administered bardoxolone methyl (CDDO-Me), a potent activator of Nrf2 that has entered clinical development, and then subjected to partial hepatectomy (PHx). CDDO-Me enhanced the rate of restoration of liver volume and improved liver function (multispectral optoacoustic imaging in wild type, but not Nrf2 null, mice following two-thirds partial hepatectomy. These effects were associated with an increase in hepatocyte hypertrophy and proliferation, the suppression of immune and inflammatory signals, and metabolic remodeling in the remnant liver tissue.

Project description:The cellular and molecular mechanisms involved in liver regeneration following partial hepatectomy (PHx) are complicated. Liver sinusoidal endothelial cells (LSECs) play key roles in orchestrating liver regeneration, especially during the inductive phase and angiogenic phase post PHx (from day 0 to day 8). However, the expression profile of LSECs during the late phase of regeneration remains poorly explored. Thus, we purified LSECs from mice underwent PHx or sham operation at day 14 to unravel their transcriptome changes in the late phase of liver regeneration.

Project description:The study examined the role of TNF alpha in regulation of liver regeneration. For this purpose animals were divided in three groups of healthy controls, 2/3 partial hepatectomy alone, and animals pretreated with TNF alpha antagonist followed by 2/3 partial hepatectomy. Liver regeneration responses were then examined in conjunction with gene expression analysis at the peak of partial hepatectomy induced DNA synthesis. Substantive differences were identified in multiple gene ontology groups and cellular events and processes to indicate that TNF alpha was deleterious for partial hepatectomy induced liver regeneration.

Project description:Liver regeneration starting from hepatocyte proliferation was reported to be correlated with blood flow changes after partial hepatectomy (PHx). However, the regulatory effects of flow-induced shear stress on initiating hepatocyte proliferation have not been elucidated. Thus, the isolated hepatocytes were exposed to shear stress to identify their transcriptome changes.

Project description:Autonomic nervous system is widely distributed in liver, and some reserchers have found that disruppted autonomic nerves will delay liver regeneration. We used microarrays to further highlight the regulatory role of autonomic nervous system in liver regeneration at gene transcription level. Surgical operations of rat partial hepatectomy (PH) and its operation control (OC), sympathectomy combining partial hepatectomy (SPH), vagotomy combining partial hepatectomy (VPH), and total liver denervation combining partial hepatectomy (TDPH) were performed, and the expression profiles of regenerating liver at 2h were detected using Rat Genome 230 2.0 array. Then the significantly changed genes related to liver regeneration (LR)-, injury-, splanchnic nerve-LR-, vagal nerve-LR-, and autonomic nerve-LR-related genes were identified, respectively. The relevance of gene expression profiles and biological processes was analyzed by bioinformatics and systems biology.

Project description:This SuperSeries is composed of the following subset Series: GSE20425: Hepatic gene expression during liver regeneration in response to partial hepatectomy: early time points (0.5h,1h,2h,4h) GSE20426: Hepatic gene expression during liver regeneration in response to partial hepatectomy: late time points (24h, 38h, 48h) Refer to individual Series

Project description:Arid1a is the subunit of SWI/SNF complex, which was reported to guide SWI/SNF to DNA. Here, we found that loss of Arid1a in the liver results in improved liver regeneration after partial hepatectomy.Genome-wide analysis showed that after hepatectomy,loss of Arid1a reduces the recruitment and activity of E2F4 on target promoters, resulting in expression programs that favor regeneration during injury. Correspondingly, these promoters showed increased H3k4me2 and H3k27ac marks, indicating de-repression of these E2f target genes. The post partial hepatectomy mice liver cells were fixed and isolated, analysis of genomic occupancy of E2f4,H3K4me2,H3K27ac in hepatocytes from Arid1a WT and Arid1a liver specific KO mice by ChIP-seq.

Project description:Arid1a is the subunit of SWI/SNF complex, which was reported to guide SWI/SNF to DNA. Here, we found that loss of Arid1a in the liver results in improved liver regeneration after partial hepatectomy.Genome-wide analysis showed that after hepatectomy,loss of Arid1a reduces the recruitment and activity of E2F4 on target promoters, resulting in expression programs that favor regeneration during injury.RNAseq shows transcriptional profiling in WT and Arid1a LKO livers pre- and post-hepatectomy, which confirmed the E2F4 target genes and cell cycle genes were upregulated after hepatectomy. After partial hepatectomy, liver transcriptional profiling in WT and Arid1a liver specific KO mice were generated by RNA-seq analysis.