Project description:To detect mRNAs in ischemic stroke animals we dissected contralateral (CL) and peri-ischemic (PI) cortex of transient middle cerebral artery occlusion (tMCAo) mice wild-type and ciRS-7 KO We performed differentially expression analysis of RNA-seq of wild-type and ciRS-7 KO tMCAo ischemic mice

Project description:The role of a mammalian network in regulating ischemic stroke outcome II

Project description:The role of a mammalian network in regulating ischemic stroke outcome I

Project description:The purpose of this project was to elucidate gene expression in the peripheral whole blood of acute ischemic stroke patients to identify a panel of genes for the diagnosis of acute ischemic stroke. Peripheral blood samples were collected in Paxgene Blood RNA tubes from stroke patients who were >18 years of age with MRI diagnosed ischemic stroke and controls who were non-stroke neurologically healthy. The results suggest a panel of genes can be used to diagnose ischemic stroke, and provide information about the biological pathways involved in the response to acute ischemic stroke in humans. Total RNA extracted from whole blood in n=39 ischemic stroke patients compared to n=24 healthy control subjects.

Project description:The current treatment options for ischemic stroke aim to achieve reperfusion but are time critical. Novel therapeutic approaches that can be given beyond the limited time window of 3 - 4.5 hours are still an unmet need to be addressed to improve stroke outcome. The lack of oxygen and glucose in the area of ischemic injury initiates a pathological cascade leading to blood-brain barrier (BBB) breakdown, inflammation and neuronal cell death, a process that may be intercepted to limit stroke progression. Pericytes located at the blood/brain interface are one of the first responders to hypoxia in stroke and therefore a potential target cell for early stroke interventions. Using single-cell RNA sequencing in a mouse model of permanent middle cerebral artery occlusion, we investigated the temporal differences in transcriptomic signatures in pericytes at 1, 12, and 24 hours after stroke compared to the contralateral hemisphere. Our results reveal a stroke-specific subcluster of pericytes that is present at 12 and 24 hours and characterized by the upregulation of genes mainly related to cytokine signalling and immune response. This study identifies temporal transcriptional changes in the acute phase of ischemic stroke that reflect the early response of pericytes to the ischemic insult and its secondary consequences and may constitute potential future therapeutic targets.

Project description:To detect circRNAs, lncRNAs and mRNAs in oxygen and glucose deprivation (OGD) conditions we cultured cortical neurons Embryonic day 15 and subjected them to OGD We performed differentially expression analysis of RNA-seq of wild-type and ciRS-7 KO neurons

Project description:Ischemic disorders are the leading cause of death worldwide. The extracellular signal-regulated kinases 1 and 2 (ERK1/2) are part of the Raf/MEK/ERK1/2 cascade and are thought to affect the outcome of ischemic stroke. However, it is under debate whether activation or inhibition of ERK1/2 is beneficial. Therefore, this study aimed to investigate the impact of ERK1/2 after cerebral ischemia using transgenic mice with ubiquitous overexpression of ERK2 or of the Raf kinase inhibitor protein (RKIP), an inhibitor of the ERK1/2 signaling cascade.

Project description:We performed a genome-wide methylation study in whole-blood DNA from 404 ischemic stroke patient cohort, distributed across 3 ischemic stroke subtypes: Large-artery atherosclerosis (n=132), Small-artery disease (n=141) and Cardio embolic (n=127) . Illumina HumanMethylation450 BeadChip array was used to measure DNA methylation in CpG sites. We performed a genome-wide methylation study in whole-blood DNA from 185 ischemic stroke patient cohort. Illumina HumanMethylation450 BeadChip array was used to measure DNA methylation in CpG sites.

Project description:Analysis of microglial gene expression profiles after ischemic stroke. Stroke is a complicated disease caused by the interaction of multiple celltypes. Results provide new insights into the molecular mechanisms underlying microglial activation after ischemic stroke.

Project description:Analysis of astrocytic gene expression profiles after ischemic stroke. Stroke is a complicated disease caused by the interaction of multiple celltypes. Results provide new insights into the molecular mechanisms underlying astrocytic activation after ischemic stroke.