Project description:Gene expression profile of FABP4 treatment in RAW264.7 macrophages was examined to show a ligand (palmitic acid)-dependent and a ligand-independent effect of FABP4. RAW264.7 macrophages were treated with and without 200 nM recombinant FABP4 in the absence and presence of 0.2 mM palmitic acid.

Project description:In order to identify molecular mechanisms associated with PNPLA3 associated non-alcoholic fatty liver disease, we ran RNA sequencing on human induced pluripotent stem cell-derived hepatocyte like cells that were homozygous for the wild type PNPLA3 allele, homozygous for the risk PNPLA3 allele (I148M), or had a complete knock-out of the PNPLA3 gene. The cells were then treated with either oleic acid or palmitic acid to induce a steatotic or a lipotoxic phenotype, respectively. The cells were treated with control medium or medium supplemented with 0.25 mM oleic acid or palmitic acid for 24 hours before samples were collected for RNA sequencing.

Project description:H3K4me3 profiling of OSCC cells following in vitro exposure to oleic (OA) for 4 days and after 14 days of palmitic acid withdrawal.

Project description:We report whole genome gene expression in HepaRG cells, a human hepatocellular carcinoma cell line, that were either treated with palmitic and oleic acid or solvent only. These data capture transcriptional events related to the response of human hepatocyte-like cells to fat-loading.

Project description:Liver sinusoidal endothelial cells (LSEC) are unique endothelial cell typelining the sinusoids of the liver and we have shown that these cells respond in a unique matter when exposed to saturated and unsaturated free fatty acids (FFA) and bile acids. We used microarray to analyze the transcriptional differences between the LSEC exposed to free fatty acids and bile acid receptor agonists to further shed light on their role in non-alcoholic fatty liver disease. The Murine Liver Sinusoidal Endothelial Cell Line (TSEC) was treated with palmitic and oleic acid or the bile acid receptor agonist INT-767 for 8 hours. Total RNA was then harvested to determine transcriptional differences.

Project description:Gene expression profile of FABP4 treatment in RAW264.7 macrophages was examined to show a ligand (palmitic acid)-dependent and a ligand-independent effect of FABP4.

Project description:Elevated palmitic acid, a most abundant saturated fatty acid, is a risk factor for obesity complications. Here, we report that palmitic acid impairs spermatogenesis by inducing abnormal palmitoylation in Sertoli cells. Firstly, we proposed a correlation between palmitic acid and spermatogenesis by reporting a significant elevation of serum palmitic acid levels in patients with dyszoospermia. In palmitic acid -treated mice, the blood-testis barrier was found to be disrupted, and decreased tight junction protein expression was observed in palmitic acid-treated Sertoli cells. Palmitic acid entered the endoplasmic reticulum and induced endoplasmic reticulum stress, resulting in damage to Sertoli cell barriers.

Project description:Gene expression data from differentiated 3T3-L1 preadipocytes treated with Palmitic Acid, Stearic Acid, Palmitoleic Acid, or Oleic Acid

Project description:Dietary unsaturated fatty acids beneficially affect human health, in part by modulating the immune system, but the mechanism is not completely understood. Given that unsaturated fatty acids have been shown to be covalently incorporated into a small subset of proteins, we designed three alkyne-tagged chemical reporters of unsaturated fatty acids, alk-16:1, alk-17:1 and alk-18:1, to explore the generality and diversity of this protein modification. Following cell lysis, proteins labelled with the reporters could be captured by azido-functionalized reagents via CuAAC for fluorescence detection or enrichment for proteomics analysis. These reporters label many proteins in mammalian cells and can be incorporated site-specifically, notably on Cys residues. Quantitative proteomics analysis (n= 4 biological replicates) of LPS/IFN-gamma stimulated RAW264.7 labelled with oleic acid (control), alk-16 (palmitic acid chemical reporter), alk-16:1, alk-17:1 and alk-18:1, revealed that unsaturated fatty acids modify similar protein targets to saturated fatty acids, including several immune proteins. Interestingly, some proteins can be differentially labeled with unsaturated and saturated fatty acid.

Project description:Through scRNA-sequencing of primary human hepatocytes (PHHs), we have identified four subgroups of hepatocytes. A phenotyping 5-probe cocktail (Sanofi-Aventis) has been used to assess their metabolic capacity. Upon cocktail treatment, the characterized four hepatocyte subgroups displayed differential gene expression profiles and exhibited xenobiotic metabolism-related specialization. Intracellular lipid accumulation achieved through loading the cells with free fatty acids (FFA, 2:1 oleic:palmitic acid), differently affected the four subgroups. Moreover, we have shown that intracellular fat accumulation diminishes the drug-related metabolic capacity of hepatocytes.