Project description:Hepatocytes isolated from DILI patient's liver (#2064) were cultured for a long term using irrMEF and EMUKK-05, and comprehensive gene expression was compared between Puromycin-treated and non-treated groups. In addition, comprehensive gene expression analysis of human mature hepatocytes, primary cultured cells, and ips cell-derived hepatocyte-like cells were performed as controls. Two-condition experiment, Proliferating hepatocytes (ProilHH) vs. puromycin-treated ProliHH. Primary human hepatocytes (PHH) and isolated humen mature hepatocytes (MH) and human iPSC-derived hepatocyte-like cells (HLC) as controls.

Project description:In primary human hepatocytes (PHH) the involvement of the Constitutive Androstane Receptor (CAR) in genes regulations has never been evaluated at the transcriptomic level. Here we investigated the impact of CAR depletion and epidermal growth factor on CAR dependent gene modulation in PHH. The xenosensor was activated by its direct (CITCO) or indirect (Phenobarbital/PB) agonists in presence or in absence of EGF.

Project description:In primary human hepatocytes (PHH) the involvement of the Pregnane X Receptor (PXR) in genes regulations by Phenobarbital (PB) has never been evaluated at the transcriptomic level. Here we investigated the impact of PXR depletion and epidermal growth factor on PXR dependent gene modulation by PB in PHH. The potential crosstalk with CAR was investigated using Phenobarbital and the direct CAR activator (CITCO) in presence or in absence of EGF.

Project description:Interindividual differences in hepatic metabolism, which are mainly due to genetic polymorphism in its gene, have a large influence on individual drug efficacy and adverse reaction. Hepatocyte-like cells (HLCs) differentiated from human induced pluripotent stem (iPS) cells have the potential to predict interindividual differences in drug metabolism capacity and drug response. However, it remains uncertain whether human iPSC-derived HLCs can reproduce the interindividual difference in hepatic metabolism and drug response. We found that cytochrome P450 (CYP) metabolism capacity and drug responsiveness of the primary human hepatocytes (PHH)-iPSHLCs were highly correlated with those of PHHs, suggesting that the PHH-iPS-HLCs retained donor-specific CYP metabolism capacity and drug responsiveness. We also demonstrated that the interindividual differences, which are due to the diversity of individual SNPs in the CYP gene, could also be reproduced in PHH-iPS-HLCs. We succeeded in establishing, to our knowledge, the first PHH-iPS-HLC panel that reflects the interindividual differences of hepatic drugmetabolizing capacity and drug responsiveness.

Project description:LC-MS/MS protein data of Primary Human Hepatocytes (PHH) exposed to Valproic Acid (VPA) for 3 days daily and 3 days daily exposure followed by 3 days washout.

Project description:Primary Human Hepatocytes (PHH) were exposed daily for 3 days to 15 mM VPA after which RNA was isolated. After terminating the VPA treatment, part of the cells were kept with medium for 3 days in order to investigate the eventual persistence of VPA-induced methylome changes. Identification of differentially expressed regions in the RNA was carried out by the RNA-seq method.

Project description:Identification of open chromatin in wheat spikes and seedlings using MH-seq

Project description:Effect of chemerin in primary human hepatocytes (PHH) and hepatic stellate cells (HSC)

Project description:Primary human hepatocytes (PHH) are a main instrument in drug metabolism research and in the prediction of drug-induced phase I/II enzyme induction in humans. The HepG2 liver-derived cell line is commonly used as a surrogate for human hepatocytes, but their use in ADME and toxicity studies can be limited because of lowered basal levels of metabolizing enzymes. Despite their widespread use, the transcriptome of HepG2 cells compared to PHH is not well characterized. In this study, microarray analysis was conducted to ascertain the differences and similarities in mRNA expression between HepG2 cells and human hepatocytes before and after exposure to a panel of fluoroquinolone compounds. Comparison of the naïve HepG2 cell and PHH transcriptomes revealed a substantial number of basal gene expression differences. When HepG2 cells were dosed with a series of fluoroquinolones, trovafloxacin, which has been associated with human idiosyncratic hepatotoxicity, induced substantially more gene expression changes than the other quinolones, similar to previous observations with PHH. While TVX-treatment resulted in many gene expression differences between HepG2 cells and PHH, there were also a number of TVX-induced commonalities, including genes involved in RNA processing and mitochondrial function. Taken together, these results provide insight for interpretation of results from drug metabolism and toxicity studies conducted with HepG2 cells in lieu of PHH, and could provide further insight into the mechanistic evaluation of TVX-induced hepatotoxicity. Experiment Overall Design: HepG2 cells were obtained from the American Type Culture Collection (Rockville, MD). The cells were cultured in Minimum Essential Medium (Invitrogen Life Technologies, Carlsbad,CA) with 10% Fetal Bovine Serum under a humidified 5% CO2 atmosphere using T-162 plastic culture flasks. The cells were split when they reached approximately 70-85% confluence after washing with sterile phosphate buffered saline and detachment of the cells with trypsin (Invitrogen Life Technologies, Carlsbad, CA). The HepG2 cells were cultured in 6-well plastic plates upon exposure to quinolone compounds. Primary human hepatocytes, obtained from In Vitro Technologies (IVT, Baltimore, MD) in 6-well type I collagen coated plates, were cultured with 2 mL of Hepatocyte Incubation Media (IVT) at 37°C with 5% CO2 for 24 hours after receipt. Experiment Overall Design: For the genomic experiments, quinolone compounds, dissolved in 0.1 N KOH (Sigma Chemical Co., St. Louis, MO), were added to the wells with fresh media at levels of 100 µM (HepG2) or 400 µM (primary human hepatocytes) for 24 hours using at least two technical replicates. Trovafloxacin was dosed using two separate preparations of HepG2 cells and two separate donors of human hepatocytes. Vehicle control cells were dosed with an equivalent volume of 0.1N KOH as the experimental samples. For intracellular comparison (HepG2 cells vs PHH), naïve cells were harvested using TRIzol� reagent (Invitrogen Life Technologies, Carlsbad, CA). Experiment Overall Design: Total RNA was isolated from the TRIzol� extracts using the standard procedure from the manufacturer. O.D. at 260 nm determined RNA concentrations. RNA quality was accessed using an Agilent Technologies bioanalyzer before proceeding to microarray sample preparation. Microarray analysis was performed using the standard protocol provided by Affymetrix Inc. (Santa Clara, CA) and as previously described, starting with 5 µg of total RNA (Richert et al., 2006). Experiment Overall Design: Fragmented, labeled cRNA was hybridized to an Affymetrix human genome U133A array, which contains sequences corresponding to roughly 22,200 transcripts at 45°C overnight. The arrays were washed, developed, and scanned.

Project description:Primary Human Hepatocytes (PHH) were exposed daily for 5 days to 15 mM VPA after which DNA was isolated. After terminating the VPA treatment, part of the cells were kept with medium for 3 days in order to investigate the eventual persistence of VPA-induced methylome changes. Identification of methylated regions in the DNA was carried out by the Methylated DNA Immuno-Precipitation - sequencing (MeDIP-seq) method and contains the following steps: fragmentation, library preparation, MeDIP, and sequencing.