Project description:Global expression pattern in eosinophils in various conditions such as eosinophilic asthma, hypereosinophilic dermatological diseases, parasitosis and pulmonary aspergillosis. Eosinophil were isolated from peripheral blood by FACS from 4 hypereosinophilic conditions: eosinophilic asthma (4 replicates), hypereosinophilic dermatological diseases (3 replicates), parasitosis (3 replicates) and pulmonary aspergillosis (4 replicates).

Project description:No longer regarded as simply end-stage cytotoxic effectors, eosinophils are now recognized as complex cells with unique phenotypes that develop in response to the local microenvironment. In our previous study, we documented eosinophil infiltration in association with characteristic muscle damage in the dystrophin-deficient (mdx) mouse model of Duchenne muscular dystrophy. In this earlier study, we found that eosinophils did not promote formation of muscle lesions, as these persisted in eosinophil-deficient mdx.PHIL mice. To obtain additional insight into these findings, we performed RNA sequencing on eosinophils isolated from muscle tissue of mdx, IL5tg, and mdx.IL5tg mouse strains. We discovered profound up-regulation of classical eosinophil effector proteins (major basic protein-1, eosinophil peroxidase, and eosinophil-associated ribonucleases, or RNases) in eosinophils isolated from lesion-free muscle from IL5tg mice. By contrast, we observed significant upregulation of tissue remodeling genes, including proteases, extracellular matrix components, collagen, and skeletal muscle precursors, as well as the immunomodulatory receptor, TREM2, in eosinophils isolated from skeletal muscle tissue from the dystrophin-deficient mdx mouse strain. The anti-inflammatory properties of TREM2 have been described in the monocyte/macrophage lineage; however, there are no previous studies documenting TREM2 expression in eosinophils. Here we show that TREM2 is critical for full growth and differentiation of bone marrow-derived eosinophil cultures and for full expression of toll-like receptor 4. Immunoreactive TREM2 was also detected on human eosinophils at levels that correlated with donor body mass index. Taken together, our findings provide important insight into the immunomodulatory and remodeling capacity of mouse eosinophils and the flexibility of their gene expression profiles in vivo.

Project description:As opposed to their well-characterized contributions to inflammatory processes, tissue eosinophils are now also thought to contribute to immune homeostasis at mucosal sites such as the gut. Yet, whether such steady-state eosinophils exist in the lung is currently unclear. In this project, we identified and characterized lung resident eosinophil and also studied what happen to these cell during a mouse model of allergic inflammation (House dust mite (HDM) exact administrations). We compared the transcriptional profile of lung resident eosinophil from naive mice (rEOS ss) or from HDM-treated mice (rEOS i) and of inflammatory eosinophil (iEOS) from HDM-treated mice.

Project description:To determine how AHR affects eosinophil adaptation to the intestinal environment, eosinophils were sorted from the small intestine from WT, Ahr knockout and Ahrr knockout mice and compared by RNA sequencing. The canonical AHR pathway was active in murine intestinal eosinophils and limited eosinophil survival in the small intestine in a cell-intrinsic manner. Eosinophils from AHR-deficient mice retained increased expression of pathways associated with bone marrow eosinophils and failed to fully express the intestinal gene expression program, including extracellular matrix organization and cell junction pathways. Thus, our study demonstrates that the response to environmental triggers via AHR shapes tissue adaptation of eosinophils in the small intestine.

Project description:The recognition of the immune system as a key component of the tumor microenvironment (TME) led to promising therapeutics. Since such therapies benefit only subsets of patients, understanding the activities of immune cells in the TME is required. Eosinophils are an integral part of the TME especially in mucosal tumors. Nonetheless, their role in the TME and the environmental cues that direct their activities are largely unknown, especially in metastasis. We report that breast cancer-driven lung metastasis is characterized by resident and recruited eosinophils. Eosinophil recruitment to the metastatic lung was regulated by G protein coupled receptor signaling but independent of CCR3. Functionally, eosinophils promoted lymphocyte-mediated anti tumor immunity. Transcriptome and proteomic analyses identified the TME rather than intrinsic differences between eosinophil subsets as a key instructing factor directing anti tumorigenic eosinophil activities. Specifically, TNF-a/IFN-g-activated eosinophils facilitated CD4+ and CD8+ T cell infiltration and promoted anti-tumor immunity. Collectively, we identify a mechanism by which the TME entrains eosinophils to adopt anti-tumorigenic properties, which may lead to the development of eosinophil-targeted therapeutics.

Project description:Objective: To study the physiological role of eosinophils in the GI tract and lung under homeostatic conditions, Method: we analyzed tissue-specific eosinophil gene expression patterns by genome-wide expression microarray analysis using RNA isolated from FACS-sorted eosinophils from the small intestine or lung of naive BALB/cmice (Live eosinophils were identified as DAPI-CCR3+Siglec-F+CD45+CD4-CD8a-CD19-B220-SSChigh cells). Result: There are 513 genes that are differentially expressed by intestinal eosinophils and Lung eosinophils. Conclusion: Eosinophils from different tissues have unique gene expression patterns for distinct functions. we analyzed tissue-specific eosinophil gene expression patterns by genome-wide expression microarray analysis using RNA isolated from FACS-sorted eosinophils from the small intestine or lung of naive BALB/cmice (Live eosinophils were identified as DAPI-CCR3+Siglec-F+CD45+CD4-CD8a-CD19-B220-SSChigh cells).

Project description:Eosinophilic esophagitis (EoE) is a T helper type 2 (TH2) cytokine-associated disease charaterized by eosinophil infiltration, epithelial cell hyperplasia and tissue remodeling. Recent studies have highlighted a major contribution for IL-13 in EoE pathogenesis. Paired immunoglobulin-like receptor (PIR)-B is a cell surface immune-inhibitory receptor that is expressed by eosinophils and postulated to regulate eosinophil development and migration. We report that Pirb is upregulated in the esophagus after inducible overexpression of IL-13 (CC10-IL13 Tg mice) and is overexpressed by esophageal eosinophils. CC10-IL13Tg/PirB-/- mice displayed increased esophageal eosinophilia and EoE pahtology, including epithelial cell thickening, fibrosis and angiogenesis, compared with CC10-IL13 Tg/PirB+/+ mice. Transcriptome analysis of primary Pirb+/+ and Prib-/- esophageal eosinophils revealed increased expression of transcripts associated with promoting tissue remodeling in Pirb-/- eosinophils including pro-fibrotic genes, genes promoting epithelial-to-mesenchymal transition (EMT) and genes associated with epithelial growth. These data identify PIR-B as a molecular checkpoint in IL-13-induced eosinophil accumulation and activation, which may serve as a novel target for future therapy in EoE.

Project description:Eosinophils are important in fighting parasitic infections and are implicated in the pathogenesis of asthma and allergy. Interleukin-5 (IL-5) is a critical regulator of eosinophil development, controlling proliferation, differentiation and maturation of the lineage. Mice that constitutively express IL-5 have more than 10 fold more eosinophils in the haematopoietic organs than their wild type counterparts. We have identified that much of this expansion is in a population of Siglec-F high eosinophils, which are rare in wild type mice. In this study we assessed transcription in myeloid progenitors, eosinophil precursors and Siglec-F medium and Siglec-F high eosinophils from IL-5 transgenic mice and in doing so have created a useful resource for eosinophil biologists. We have then utilised these populations to construct an eosinophil trajectory based on gene expression and to identify gene sets that are associated with eosinophil lineage progression. Cell cycle genes were significantly associated with the trajectory, and we experimentally demonstrate an increasing trend towards quiescence along the trajectory. Additionally we found gene expression changes associated with constitutive IL-5 signalling in eosinophil progenitors, many of which were not observed in eosinophils.

Project description:Depletion of autophagy-associated protein 5 (Atg5), specifically within the eosinophil lineage in mice, resulted in increased body weight, impaired glucose metabolism, and structural alterations in adipose tissue. Our findings highlight that Atg5 influences the functional activity of eosinophils within adipose tissue rather than their quantity. To gain a deeper understanding of the molecular mechanisms underlying ATG5's role in eosinophils, we conducted total RNA-seq analyses on control and Atg5-deficient eosinophils isolated from both bone marrow and blood of mice.

Project description:Tissue-resident macrophages abound in the distal atrioventricular (AV) node of the heart, electrically couple to conducting cardiomyocytes via Connexin (Cx) 43-containing gap junctions and are implicated in normal and aberrant cardiac conduction.