Project description:To study isoforms of nuclear RNAs, including CARMN lncRNA, we performed Oxford Nanopore long-read sequencing of RNAs isolated from the nuclear fraction of human coronary artery smooth muscle cells.

Project description:Transcriptomics analysis of human coronary artery smooth muscle cells cultured in osteogenic medium (OM) to induce a mineralized extracellular matrix. To study the underlying molecular mechanisms driving vascular calcification, we analyzed the transcriptome of osteogenic medium (OM)-calcified human coronary artery smooth muscle cells on day 7.

Project description:RNA-seq profiling of human coronary artery smooth muscle cells under treatment of nitrated conjugated linoleic acids (NO2-CLA)

Project description:Transcriptomics analysis of human coronary artery smooth muscle cells cultured in calcium-phosphate medium (CaP) to induce a mineralized extracellular matrix. To study the underlying molecular mechanisms driving vascular calcification, we analyzed the transcriptome of calcium-phosphate calcified human cronary aortic smooth muscle cells on day 3.

Project description:Chondro/osteoblastic and cardiovascular-disease associated genes are modulated in human coronary artery smooth muscle cells that calcify in the presence of phosphate and vitamin D sterols. Looking at the effect of media conditions with and without Vitamin D, paracalcitriol (a vitamin D analog), or R568 (a calcimimetic) vs. dose and time on calcification of human coronary smooth muscle cells. Experiment Overall Design: CASMCs were exposed to differentiation medium [beta glycerophosphate (10 mM), ascorbic acid (50 mg/ml), and dexamethasone (10-9 M) with and without calcitriol or paricalcitol (10-8 M) for 7 days, and total RNA was examined by microarray.

Project description:Vascular smooth muscle cell plasticity plays a pivotal role in the pathophysiology of vascular diseases. Despite compelling evidence demonstrating the importance of transcription factor GATA6 in vascular smooth muscle, the functional role of GATA6 remains poorly understood. The aim of this study was to elucidate the role of GATA6 on cell migration and to gain insight into GATA6-sensitive genes in smooth muscle. Therefore, we performed Affymetrix microarray analysis on human coronary artery smooth muscle cells after overexpressing GATA6 by adenovirus transduction and compared it to control which are cell transduced with Ad-CMV-null.

Project description:TGFbeta induces VSMC gene expression in human coronary artery smooth muscle cell (HCASM)

Project description:To better understand the fundamental molecular mechanisms that contribute to complex human diseases such as coronary artery disease (CAD), we have created a catalog of genetic variants associated with three stages of transcriptional cis-regulation in primary human coronary artery vascular smooth muscle cells. To this end, we used a pooling approach to map quantitative trait locus associations (QTLs) for TCF21 binding (ChIPseq), chromatin accessibility (ATACseq), and chromosomal looping (HiC). We find significant overlap of these QTLs, and several analyses indicate their relationship to smooth muscle specific genes, the binding of smooth muscle transcription factors, and enrichment in CAD-associated loci. These QTLs are extensively validated and allele-specific chromatin looping at the FN1 disease locus is shown to be mediated by activation of the CAD-associated TGFb1 pathway. In sum, these results uncover thousands of loci affecting cis-regulation in a key cell type for CAD, including many that may contribute to CAD risk.

Project description:The human LncRNA microarray analysis of the 6 monocytes samples from Coronary Artery Disease patients and non Coronary Artery Disease 3 Coronary Artery Disease patients and 3 non-Coronary Artery Disease donors

Project description:To better understand the fundamental molecular mechanisms that contribute to complex human diseases such as coronary artery disease (CAD), we have created a catalog of genetic variants associated with three stages of transcriptional cis-regulation in primary human coronary artery vascular smooth muscle cells. To this end, we used a pooling approach to map quantitative trait locus associations (QTLs) for TCF21 binding (ChIPseq), chromatin accessibility (ATACseq), and chromosomal looping (HiC). We find significant overlap of these QTLs, and several analyses indicate their relationship to smooth muscle specific genes, the binding of smooth muscle transcription factors, and enrichment in CAD-associated loci. These QTLs are extensively validated and allele-specific chromatin looping at the FN1 disease locus is shown to be mediated by activation of the CAD-associated TGFb1 pathway. In sum, these results uncover thousands of loci affecting cis-regulation in a key cell type for CAD, including many that may contribute to CAD risk.