Project description:Smooth muscle cell TGFβ signaling is one of the primary drivers of smooth muscle cell maturation. Inhibition of smooth muscle cell TGFβ signaling in hyperlipidemic mice induces vessel wall inflammation and vessel wall dilation/dissection and leads aortic aneurysm. We performed bulk RNAseq method to examine smooth muscle cell gene expression profile using fresh human tissues from normal aortic media smooth muscle cells and aneurysm aortic media smooth muscle cells.
Project description:Analysis of differential gene expression of aortic vascular smooth muscle cells isolated from Tie2floxed:SM22α Cre- (WT) and Tie2floxed:SM22α Cre+ (KO) mice Looking for candidates, that could potentialy be upregulated or downregulated
Project description:The impact EGFR, AT1R and TP receptor individual or simultaneous activations on the gene expression was investigated in mouse aortic vascular smooth muscle cells (aVSMC)
Project description:Smooth muscle cell TGFβ signaling is one of the primary drivers of smooth muscle cell maturation. Inhibition of smooth muscle cell TGFβ signaling in hyperlipidemic mice induces vessel wall inflammation and vessel wall dilation/dissection and leads aortic aneurysm. We performed scRNAseq method to examine smooth muscle cell gene expression profile using Apoe and SMC specific TGFbR2 KO in Apoe background mice.
Project description:LncRNA and mRNA expression profiles in aortic smooth muscle cells with Srf knockout or Myocd over-expression were analyzed by Arraystar Mouse LncRNA Microarray V3.0.
Project description:Aortic smooth muscle cell (SMC) phenotype modulation is a central feature of cell-mediated pathology in Marfan syndrome aortic aneurysm and Klf4 is proposed to contribute to this process. We generated mice with smooth muscle cell-specific Klf4 deletion using an Myh11-creERT2 transgene, induced deletion at 8 weeks and performed single cell RNA sequencing at 24 weeks on whole aortic root tissues.
Project description:IL-1 plays an important role in atherosclerosis, and alters expression of a number of genes involved in atherosclerotic plaque development and progression. Smooth muscle cells play important roles in atherosclerotic plaque formation and stability, so this study was undertaken to determine the global effects of IL-1b on gene expression in smooth muscle cells in vitro. Cultured rat aortic smooth muscle cells were treated with IL-1b (2.5 ng/mL) or vehicle (0.1% BSA) for 24 hours prior to harvest.
Project description:Recent studies highlight the importance of lipotoxic damage in aortic cells as the major pathogenetic contributor of atherosclerotic disease. Since the STE20-type kinase STK25 has been shown to exacerbate ectopic lipid storage and associated cell injury in several metabolic organs, we here investigated its role in the main cell types of vasculature. We depleted STK25 by small interfering RNA in human aortic endothelial and smooth muscle cells exposed to oleic acid and oxidized LDL. In both cell types, the silencing of STK25 reduced lipid accumulation and suppressed activation of inflammatory and fibrotic pathways as well as lowered oxidative and endoplasmic reticulum stress. Notably, in smooth muscle cells, STK25 inactivation hindered the shift from a contractile to a synthetic phenotype. Together, we provide the first evidence that antagonizing STK25 signaling in human aortic endothelial and smooth muscle cells is atheroprotective, highlighting this kinase as a new potential therapeutic target for atherosclerotic disease.