Project description:Angiotensin II (Ang II)-mediated vascular smooth muscle cells (VSMC) dysfunction plays a critical role in cardiovascular diseases. However, the gene expression in this process is unclear. We used Rat Affymetrix gene array to profile Ang II-regulated gene in RVSMC and evaluated their role in VSMC dysfunction. Examined 4 samples of Rat VSMC in triplicate. Control (without Ang II treatment) and 3 samples treated with Ang II for 6h, 12h, and 24h. Compared the changes in gene expression in Ang II treated samples relative to control samples.
Project description:Angiotensin II (Ang II)-mediated vascular smooth muscle cells (VSMC) dysfunction plays a critical role in cardiovascular diseases. However, the gene expression in this process is unclear. We used Rat Affymetrix gene array to profile Ang II-regulated gene in RVSMC and evaluated their role in VSMC dysfunction.
Project description:Angiotensin II (Ang II)-mediated vascular smooth muscle cells (VSMC) dysfunction plays a critical role in cardiovascular diseases. However, the role of microRNAs (miRNAs) in this process is unclear. We used small RNA deep sequencing to profile Ang II-regulated miRNAs in rat VSMC and evaluated their role in VSMC dysfunction. Sequencing results revealed several Ang II-responsive miRNAs and bioinformatics analysis showed that their predicted targets can modulate biological processes relevant to cardiovascular diseases. Examined 4 samples of Rat VSMC. Control (without Ang II treatment) and 3 samples treated with Ang II for 1h, 3h, and 24h. Compared the changes in gene expression in Ang II treated samples relative to control samples.
Project description:We report high-throughput sequencing of small RNAs can compare the profiles between proliferative and replicative senescent human vascular smooth muscle cells and exosomes
Project description:Long non-coding RNAs (LncRNAs) in hypertensives and their mechanisms in regulating blood pressure still remain unexplored. The aim of present study is to construct the profiles of LncRNAs in blood of patients with essential hypertension and healthy controls. Methods and results, LncRNA microarray identified up-regulated, anddown-regulated LncRNAs, in hypertensives compared to their healthy controls. Among them, one vascular smooth muscle (VSM)-specific LncRNA AK096656 (LncVSM) was quantitated in plasma of patients with hypertension and their healthy controls using the real-time qRT-PCR. LncVSM shows specific expression in human arterial vascular smooth muscle cells (HASMCs) and promote its proliferation and migration. Expression profiles and Ingenuity Pathway Analysis (IPA) revealed that LncVSM activated Renin-Angiotensin Signaling (RAS). the overexpression of LncVSM would result hypertension related complications. LncVSM (AK098656) transfection
Project description:Giver is a novel lncRNA found to be upregulated by Ang II stimulation in rat vascular smooth muscle cells (RVSMCs). The regulatory mechanisms of rat Giver has not been reported so far. We used microarrays to detail Giver-mediated global gene expression and identified distinct classes of up- and down-regulated genes.
Project description:Alivec is a novel lncRNA found to be upregulated by Ang II stimulation in rat vascular smooth muscle cells (RVSMCs). The regulatory mechanisms of rat Alivec have not been reported so far. We used microarrays to investigate Alivec-mediated global gene expression and identified distinct classes of up- and down-regulated genes.
Project description:Oxidative stress-dependent genes are defined as those induced or suppressed by H2O2 treatement in rat vascular smooth muscle cells. JNK-induced genes in rat vascular smooth muscle cells are defined as those induced by adenoviruses encoding constitutively active MKK7 (caMKK7) + wild type JNK1 (wtJNK1) and suppressed by adenovirus encoding dominant negative JNK1 (APF). JNK-suppressed genes in rat vascular smooth muscle cells are defined as those suppressed by adenoviruses encoding constitutively active MKK7 (caMKK7) + wild type JNK1 (wtJNK1) and induced by adenovirus encoding dominant negative JNK1 (APF). Adenovirus encoding nuclear localizing GFP was used as a control.
Project description:Oxidative stress-dependent genes are defined as those induced or suppressed by H2O2 treatement in rat vascular smooth muscle cells. JNK-induced genes in rat vascular smooth muscle cells are defined as those induced by adenoviruses encoding constitutively active MKK7 (caMKK7) + wild type JNK1 (wtJNK1) and suppressed by adenovirus encoding dominant negative JNK1 (APF). JNK-suppressed genes in rat vascular smooth muscle cells are defined as those suppressed by adenoviruses encoding constitutively active MKK7 (caMKK7) + wild type JNK1 (wtJNK1) and induced by adenovirus encoding dominant negative JNK1 (APF). Adenovirus encoding nuclear localizing GFP was used as a control. Keywords = vascular smooth muscle Keywords = hydrogen peroxide Keywords = c-Jun N-terminal kinase Keywords = JNK Keywords = adenovirus Keywords = oxidative stress Keywords: repeat sample
