Project description:To evaluate the role of TNIK in ECs and in regulation of disturbed flow and laminar flow, we established Human Aorta (HAECs) from two human donnors in which each target gene has been knocked down of TNIK by siRNA. We then performed gene expression profiling analysis using data obtained from RNA-seq of two different HAECs witt/without knocking down of TNIK under disturb flow and laminar flow for 24 hours

Project description:ab and gd T cells originate from a common, multi-potential precursor population in the thymus, but the molecular mechanisms regulating this lineage fate decision process are unknown. We have identified Sox13 as a gd-specific gene in the immune system. Using Sox13 transgenic mice, we show that SOX13 promotes gd T cell development while opposing ab T cell differentiation. Conversely, mice deficient in Sox13 expression exhibited impaired development of gd T cells, but not ab T cells. One mechanism of SOX13 function is the inhibition of WNT/TCF signaling, suggesting that differential WNT/TCF activity is an essential parameter for this binary cell fate choice. Experiment Overall Design: CD4+CD8+ double positive thymocyte subsets were sorted by FACS using total pooled thymocytes from minimum of two mice and immediately lysed in Trizol. Comparison groups in each experiment were DP thymocytes from Sox13 transgenic mice and wild type B6 littermate controls. Gene expression profiling was performed according to the manufacturerâ??s protocol (Affymetrix). Labeled cRNA (from total RNA) was generated and applied to Affymetrix Mu11K(A and B) (expt 1) or muU74Av2 (expt 2) microarrays. Results were analyzed using Microarray Analysis Software v4 and v5 (Affymetrix).

Project description:Laminar shear stress due to constant blood flow is known to play a critical role in maintaining vascular health. In contrast, endothelial cell senescence appears to be closely associated with the incidence of vascular disorder. In an attempt to identify functional biomarkers for age-related vascular health/disease, the present study investigated differential gene expression of young and senescent human umbilical vein endothelial cells (HUVECs) under static and laminar shear stress. We used a cDNA microarray method to compare gene expression profiles of young and senescent HUVECs under static and laminar shear stress conditions. Experiment Overall Design: Senescent cells were prepared by continuous subculture in vitro, and a cone-and-plate device was used to impose laminar shear stress onto cells. Young and senescent cells were exposed to laminar shear stress or maintained under static conditions. Total mRNA was extracted and gene expression profiles were analyzed by cDNA microarray.

Project description:Many studies have characterised the effect of normal laminar shear stress (LSS) on endothelial responses, however elevated shear stress, as would be experienced overlying a stenotic plaque, has not been studied in depth. Therefore we used transcriptomics and related functional analyses to compare cells exposed to laminar shear stress at 15 or 75 dynes/cm2 for 24 hours (LSS15-normal or LSS75-high shear stress). Human umbilical vein endothelial cells (HUVEC n=4 per flow condition from different batches of pooled donor HUVEC p2) were cultured for 24 hours on gelatin coated slides under laminar shear stress of either 15 dynes/cm2 or 75 dynes/cm2 (LSS15 or LSS75) to assess the effect of high shear stress on endothelial cells. Total RNA was obtained using Qiagen kit and array analysis performed by Service XS (Leiden, Netherlands).

Project description:The goal of this study was to identify gene signatures in HUVECs exposed to atheroprone low laminar shear stress (LSS) or atheroprotective high laminar shear stress (HSS). The obtained data was used to verify that HSS and LSS application induces gene expression patterns similar to more complex pulsatile and oscillatory flow, respectively.

Project description:Laminar shear stress regulates blood vessel morphogenesis and subsequent quiescence, but how endothelial cells (EC) enact and maintain the vascular homeostasis required in most vessels for proper vessel function is poorly understood. SMAD6, a scaffold for several signaling pathways, is expressed in developing arteries and its expression is flow-regulated. We found that SMAD6 is essential for endothelial cell flow-mediated responses, and that it functions downstream of the mechanosensor Notch1. Endothelial cells with reduced SMAD6 levels failed to align under stable laminar shear flow that promotes vascular homeostasis, while forced SMAD6 expression rescued misalignment induced by reduced Notch1 signaling. SMAD6-dependent homeostatic laminar flow required the Notch ligand Dll4 and Notch transcriptional activity. Mechanistically, neither the N-terminal nor the C-terminal domain of SMAD6 alone rescued flow alignment upon loss of Notch signaling. Endothelial cells with reduced Smad6 levels has compromised barrier function, and RNA profiling revealed upregulation of proliferation-associated genes and down regulation of junction-associated genes. Among junction-related genes affected by SMAD6 levels, the proto-cadherin PCDH12 was upregulated by homeostatic flow and required for proper flow-mediated endothelial cell alignment. Thus, SMAD6 is a critical integrator of flow-mediated signaling inputs downstream of Notch1, as vessels transition from an angiogenic to a homeostatic phenotype.

Project description:Renal epithelial cells are exposed to mechanical forces due to flow-induced shear stress within the nephrons. We applied RNA sequencing to get a comprehensive overview of fluid-shear regulated genes and pathways in the immortalized renal proximal tubular epithelial cell line. Cells were exposed to laminar fluid shear stress (1.9 dyn/cm2) in a cone-plate device and compared to static controls.

Project description:Laminar shear stress due to constant blood flow is known to play a critical role in maintaining vascular health. In contrast, endothelial cell senescence appears to be closely associated with the incidence of vascular disorder. In an attempt to identify functional biomarkers for age-related vascular health/disease, the present study investigated differential gene expression of young and senescent human umbilical vein endothelial cells (HUVECs) under static and laminar shear stress. We used a cDNA microarray method to compare gene expression profiles of young and senescent HUVECs under static and laminar shear stress conditions. Keywords: stress response, age state analysis

Project description:Osteoblasts are responsive to shear stress. We investigated the effect of of laminar fluid flow (LFF) on osteoblast-like MC3T3-E1 cells at two timepoints. We used microarray analysis to detail the global gene expression of MC3T3-E1 cells in response to 1 hour of laminar fluid flow directly and 4 hours after treatment.

Project description:Pkd1-/- renal epithelial cells are exposed to mechanical forces due to flow-induced shear stress within the nephrons. We applied RNA sequencing to get a comprehensive overview of fluid-shear regulated genes and pathways in the immortalized Pkd1-/- renal proximal tubular epithelial cell line. Cells were exposed to laminar fluid shear stress (1.9 dyn/cm2) in a cone-plate device and compared to static controls.