Project description:We discovered a rare missense mutation in NR1H4 (R436H), which encodes the farnesoid X receptor (FXR), associating with lower levels of total cholesterol in the Icelandic population. To explore the effects of R436H we used CRISPR-Cas9 to generate homozygous NR1H4 R436H and NR1H4 knockout human iPSC lines which we differentiated to hepatocytes. Hepatocytes were treated with an FXR agonist for 24 hours and transcript abundance measured by RNA-seq. The global response to FXR activation in NR1H4 R436H cells was very similar to that of wild-type cells showing that it is not a loss-of-function mutation. However, we did observe subtle gene expression differences compatible with an effect on lipids when we compared R436H agonist treated hepatocytes to wild-type agonist treated hepatocytes.

Project description:Farnesoid X receptor (FXR) is a ligand activated nuclear receptor belonging to the nuclear receptor superfamily. Bile acids (BAs) are the endogenous ligand for FXR. FXR is a master regulator of BA homestasis, including BA synthesis, metabolism, transport, and enterohepatic circulation of BAs. Besides, FXR is involved in regulating diverse physioligical function in both humans and mice. GW4064 is a synthetic FXR agonist which selectively activates FXR and induce the transcription of FXR target genes.

Project description:Farnesoid X receptor (FXR) is a ligand activated nuclear receptor belonging to the nuclear receptor superfamily. Bile acids (BAs) are the endogenous ligand for FXR. FXR is a master regulator of BA homestasis, including BA synthesis, metabolism, transport, and enterohepatic circulation of BAs. Besides, FXR is involved in regulating diverse physioligical function in both humans and mice. GW4064 is a synthetic FXR agonist which selectively activates FXR and induce the transcription of FXR target genes. In this study, we treated wild type C57BL/6J mice with GW4064 at 100mg per kg body weight or vehicle control. Mice were treated three times, first dose at 8 am, second dose at 6 pm, third dose at 8 am the second day. Mice were sacrificed 2 hours after the last dose, and liver tissues were harvested for analysis. Animal protocols and procedures were approved by the Institutional Animal Care and Use Committee (IACUC) at the University of Kansas Medical Center. Total RNA from livers was prepared with TRIzol Reagent (Invitrogen, CA), and the whole transcription expression levels were determined using Mouse Gene 1.0 ST Array system manufactured by Affymetrix, Inc..

Project description:Global gene expression in primary cultured mouse kidney proximal tubule cells treated with either DMSO or 1uM GW4064 (an FXR agonist) was compared. Results provide insight into mechanisms underlying effects of FXR activation on gene expression in mouse kidney proximal tubule cells.

Project description:Global gene expression in the primary cultured mouse kidney proximal tubule cells treated either DMSO or 1uM GW4064 (a FXR agonist) was compared. Results provide insight into mechanisms underlying effects of FXR activation on gene expression in mouse kidney proximal tubule cells. Male C57/BJ mice aged 6 weeks were sacrificed under anesthesia and kidney proximal tubule cells were cultured until confluent. Cells were treated with either GW4064 (1uM) or equal amount of DMSO and incubated for 24 hours. 4 total RNA samples per group were analyzed and gene expression was compared between the groups.

Project description:Computational analysis identified NR1H4 as an active nuclear receptor in a xenograft model of breast cancer. Since there is evidence that NR1H4 agonist, GW4064, reduces MCF7 cell proliferation, here, we wanted understand the transcriptional changes induced by activating this nuclear receptor. We measured changes in gene expression due to GW4064-treatment and applied gene set enrichment analysis to further understand the perturbed molecular pathways.

Project description:This study was aimed to investigate the role and underlying mechanism of TRPM2 in cisplatin nephrotoxicity. Cisplatin-induced acute kidney injury (AKI) model was established in WT and TRPM2-KO mice. The transcriptome profiling of  the kidneys of WT and TRPM2-KO mice treated with cisplatin was compared to find differentially expressed gene which may be related to TRPM2 on cisplatin nephrotoxicity.

Project description:The nuclear receptor, Farnesoid X Receptor (FXR, NR1H4), is a key transcriptional regulator of metabolism and a promising drug target for non-alcoholic fatty liver disease (NAFLD), a leading cause of liver failure and death. Protein coding genes regulated by FXR are known, but it remains unknown whether FXR mediates its function through regulating expression of long non-coding RNA (lncRNA) genes. Utilizing global RNA-seq and Gro-seq analyses, we identify an FXR-induced novel long non-coding RNA (lncRNA), termed FincoR.

Project description:We have employed whole genome microarray expression profiling with the samplaes prepared by treating BMDM with GW4064, an fxr agonist. Some genes upregulated in GW4064 treated sample were used for qPCR to confirm the change of expression level.

Project description:Expression profiling of whole body (WB) FXR knockout (KO) mice (FXR WB KO), liver-specific FXR KO mice (AFXR Cre+) and enterocyte specific FXR KO mice (VFXR Cre+) on a C57BL/6J genetic background Whole body (WB) FXR knockout (KO) mice (FXR WB KO), liver-specific FXR KO mice (AFXR Cre+) and enterocyte specific FXR KO mice (VFXR Cre+) on a C57BL/6J genetic background were bred and maintained in the laboratory animal research facility at the University of Kansas Medical Center in rooms under a 12-hour light-dark cycle. All experiments used 10-16 week-old male mice. FXR was activated by treatment with the FXR synthetic agonist, GW4064, at 150 mg/kg. GW4064 or vehicle was administered by oral gavage at 6 p.m., followed by a second administration at 8 a.m. the next morning. Two hours later, the liver was harvested.