Project description:The aims of the experiment were to profile the cell types in the adult mouse cardiac interstitium (non-myocyte cells) and how they respond to myocardial infarction injury. Adult, male, Pdgfra +/GFP mice were subject to either a myocardial infarction or sham injury, with cells isolated from cardiac ventricles 3 or 7 days following surgery. We obtained scRNA-seq profiles of two cell fractions: total interstitial (non-myocyte) cell population (TIP) and FACS-sorted GFP+/Cd31- cells (GFP).

Project description:The aims of the experiment were to profile the cardiac interstitial (non-myocyte) cell types in the adult mouse from injured and uninjured hearts and how they respond to modulation of platelet-derived growth factor receptor alpha (PDGFRa) signaling. Adult, male, C57BL/BJ mice were subject to either a myocardial infarction or sham injury, and given either PDGF-AB or PBS treatment via mini-pump, with single-cell RNA-seq profiles obtained from interstitial cells isolated from cardiac ventricles 3 or 7 days following surgery.

Project description:In this project we explore the role of the master hypoxia regulator, Hypoxia inducible factor-1alpha (Hif-1a), in governing cardiac fibroblast (CF) function in homeostasis and following an acute ischaemic injury - myocardial infarction (MI). CF-specific Hif-1a conditional knockout (cKO) mice were generated by breeding Pdgfra-merCremer (PdgfraMCM/+) Cre recombinase driver mice with Hif-1a-floxed mice (Hif-1aflox/). In Hif-1afl/-; PdgfraMCM/+ progeny, Hif-1a could be conditionally deleted in adult CFs by tamoxifen (tam) administration. We also introduced a Cre-dependent R26tdTomato reporter allele allowing marking of Pdgfra+ CFs and their progeny. In this experiment, we first performed single-cell RNA sequencing (scRNA-seq) on tdTomato+ cells from the hearts of healthy cKO or heterozygous (HET) adult, male mice using the 10x Genomics Chromium system. We also performed scRNA-seq on tdTomato+/CD31-/CD45- cells from the hearts of cKO or HET mice at day-3 post-sham or -MI surgery.

Project description:To analyse lesion-induced gene regulation in macrophage and microglia at single cell resolution, we performed single cell RNAseq on FACS-isolated mpeg1.1:GFP cells from the spinal cord at 24 hours post-lesion (hpl) after spinal injury at 3 days post-fertilisation (dpf), compared to age-matched uninjured animals.

Project description:To analyse lesion-induced gene regulation in progenitor cells at single cell resolution, we performed single cell RNAseq on FACS-isolated her4.3:GFP progenitor cells from the spinal cord at 24 hours post-lesion (hpl) after spinal injury at 3 days post-fertilisation (dpf), compared to age-matched uninjured animals.

Project description:Here we define key single-cell transcriptional alterations within cardiac non-myocytes, from ventricles of spontaneously type-2 diabetic (db/db) and control (db/h) mouse hearts ([B6.BKS(D)-Lepr<db>/J], stock #000697). The cell preparation sequenced consisted of metabolically active, live and nucleated non-myocyte cells, which were depleted of endothelial cells. The objective of this experiment was to develop a framework for understanding the dynamics of cardiac cell networks in murine type-2 diabetes, as a resource for future mechanistic studies.

Project description:To verify the hypothesis that there are distinct subsets of cardiac fibroblasts, we performed single-cell RNA sequencing analysis of cardiac fibroblasts from pressure-overloaded ventricles.

Project description:Data set contains samples from isolated cells of murine hearts after myocardial infarction (LAD surgery). We used Col1a2 tracing system to mark Collagen expressing cells within d3 to d7 post infarct. In brief, adult Col1a2-ERT2+/-;mT/mG mice, at an age of 12 weeks (n=4) as well as aged animals with 88-91 weeks (n=4) were used. Left anterior descending coronary artery ligation surgery was performed, inducing myocardial infarction. Homeostasis animals were not operated. For Cre induction we injected 2mg Tamoxifen from d3 to d7 post surgery. All animals were sacrificed 28d post injury. Murine scRNA-seq libraries were prepared using Chromium Single Cell 3′ v3 Reagent Kit (10X Genomics), according to manufacturer’s protocols. Raw reads were mapped against a customized version of mm10 (GRCm38.p4) containing sequences of EGFP and tdTomato.

Project description:We have generated scRNA-seq data from embryonic day (E)10.5 and E12.5 atrioventricular canals (primitive heart valves) to assess cellular diversity during the distinct epithelial-to-mesenchymal transitions (EMTs) from endocardium and epicardium that guide the formation of valve mesenchyme. Alongside, wildtype atrioventricular canals, we generated scRNA-seq data from Sox9 conditional knockouts (Sox9fl/fl;Tie2-cre) to explore the role of SOX9 in EMT. Atrioventricular canals were microdissected from cardiac chambers and outflow tract, enriching for heart valve progenitor lineages.

Project description:The salivary glands often become damaged in individuals receiving radiotherapy for head and neck cancer, resulting in chronic dry mouth. This leads to detrimental effects on their health and quality of life, for which there is no regenerative therapy. Macrophages are the predominant immune cell in the salivary glands and are attractive therapeutic targets due to their unrivalled capacity to drive tissue repair. Yet, the nature and role of macrophages in salivary gland homeostasis, and how they may contribute to tissue repair following injury is not well understood. Here, using scRNAseq we profile the transcriptomes of adult mouse salivary gland macrophages at steady state (D0) and at days 3 and 28 after targeted irradiation injury to define the transcriptional profiles of macrophages during homeostasis, acute injury and regeneration. We sorted epithelial cells (CD326+), endothelial cells (CD31+) and macrophages (CD45+CD11b+F4/80+) and sequenced their transcriptomes using 10x Genomics Single Cell 3' (v3.1). For each sample equal numbers of cells from 2 mice were pooled.