Project description:We compared transcriptome profiling (bulk RNA-seq) of hepatic stellate cells isolated from mouse livers by perfusion method using collagenase at 37 degrees or 6 degrees and evaluated the heat-stressed gene expression at 37 degrees.
Project description:To investigate the role of Tet2 deficient immune cells in hepatic stellate cell activation, wild type or Tet2 deficient B cells, T cells, and hepatic macrophages were isolated and co-cultured with purified hepatic stellate cells. Gene expression profiling analysis of bulk hepatic stellate cell RNA was then performed.
Project description:Gene expression of mouse hepatic stellate cells was characterized under the following conditions: Quiescent (isolated from normal mouse liver) and reverted (isolated from mouse liver treated with 4 injections of carbontetrachloride followed by 45 day rest period) Affymetrix Mouse 1.0ST gene expression measurements were used to characterize the transcriptomic basis in quiescent hepatic stellate cells, isolated from normal liver, and reverted hepatic stellate cells, isolated from liver treated with 4 injections of CCl4 followed by a 45 day rest period. Gene expression of mouse hepatic stellate cells was characterized under the following conditions: A. Quiescent control hepatic stellate cells (n=4). B. Reverted hepatic stellate cells (n=4).
Project description:RNA-seq analysis of mouse primary myofibroblastic hepatic stellate cells (pMF-HSCs) treated or not with OSMI-1 OGT inhibitor (OGTi).
Project description:To investigate the role of AEBP1 involved in hepatic stellate cells (HSCs), we inhibited AEBP1 expression by specific siRNA in human HSC line LX-2 cells. Total RNA was loaded for bulk RNA sequencing.
Project description:We performed bulk RNA-seq on pancreatic and intestinal tuft cells, bone marrow derived macrophages with various treatments, and mouse pancreatic stellate cells with various treatments.
Project description:Here we analyzed mouse and human samples to characterize origin, subtypes, functions and cell-cell interactions of cancer-associated fibroblasts in cholangiocarcinoma, a highly desmoplastic tumor of the liver. Hepatic stellate cell-derived cancer-associated fibroblasts were isolated from two different models of murine intrahepatic cholangiocarcinoma, induced by overexpression of YAP+AKT or KRASG12D in combination with sg-p19, and compared by bulk RNA-sequencing to hepatic stellate cells from two models of liver fibrosis, induced by bile duct ligation or DDC diet. CAF-enriched fractions of from YAP+AKT or KRAS/sg-p19-induced intrahepatic cholangiocarcinoma, were analyzed by single-cell RNA sequencing. A cell suspension from human cholangiocarcinoma, containing all cell populations, was analyzed by single cell RNA-sequencing.
Project description:Gene expression of mouse hepatic stellate cells was characterized under the following conditions: Quiescent (isolated from normal mouse liver) and reverted (isolated from mouse liver treated with 4 injections of carbontetrachloride followed by 45 day rest period) Affymetrix Mouse 1.0ST gene expression measurements were used to characterize the transcriptomic basis in quiescent hepatic stellate cells, isolated from normal liver, and reverted hepatic stellate cells, isolated from liver treated with 4 injections of CCl4 followed by a 45 day rest period.
