Project description:microRNA 27b-3p modulates SYK in Pediatric Asthma Induced by Dust Mites

Project description:Background: In asthma, airway epithelium remodeling can already be detected during childhood, and epithelial cells are more susceptible to virus and oxidative stress. Their exact role in natural history and severity of children allergic respiratory disease remains however surprisingly unexplored. Aim: To analyze dysfunctions of epithelium in dust mite allergic respiratory disease (rhinitis ± asthma) in children. Methods: Expression profilings of nasal epithelial cells collected by brushing were performed on Affymetrix Hugene 1.0 ST arrays. All allergic patients were sensitized to dust mite. 19 patients had an isolated allergic rhinitis (AR). 14 patients had AR associated with asthma. Patients were compared to 12 controls, their severity and control being assessed according to NAEPP and ARIA criteria. Infections by respiratory viruses were excluded by real-time PCR measurements. Results: 61 probes were able to distinguish allergic rhinitis children from healthy controls. A majority of these probes was under the control of Th2 cytokines, as evidenced by parallel experiments performed on primary cultures of nasal epithelial cells. In uncontrolled asthmatic patients, we observed not only an enhanced expression of these Th2-responsive transcripts, but also a down-regulation of interferon-responsive genes. Conclusion: Our study identifies a Th2 driven epithelial phenotype common to all dust mite allergic children. Besides, it suggests that epithelium is involved in the severity of the disease. Expression profiles observed in uncontrolled asthmatic patients suggest that severity of asthma is linked at the same time to atopy and to impaired viral response. Nasal epithelium gene expression profiling of dust mite allergic children with isolated rhinitis, rhinitis associated with asthma and controls. 38 samples classified in 4 categories : 14 isolated rhinitis (R), 6 rhinitis with uncontrolled asthma (UA), 7 rhinitis with controlled asthma (CA) and 11 healthy subjects (C )

Project description:Background: In asthma, airway epithelium remodeling can already be detected during childhood, and epithelial cells are more susceptible to virus and oxidative stress. Their exact role in natural history and severity of children allergic respiratory disease remains however surprisingly unexplored. Aim: To analyze dysfunctions of epithelium in dust mite allergic respiratory disease (rhinitis ± asthma) in children. Methods: Expression profilings of nasal epithelial cells collected by brushing were performed on Affymetrix Hugene 1.0 ST arrays. All allergic patients were sensitized to dust mite. 19 patients had an isolated allergic rhinitis (AR). 14 patients had AR associated with asthma. Patients were compared to 12 controls, their severity and control being assessed according to NAEPP and ARIA criteria. Infections by respiratory viruses were excluded by real-time PCR measurements. Results: 61 probes were able to distinguish allergic rhinitis children from healthy controls. A majority of these probes was under the control of Th2 cytokines, as evidenced by parallel experiments performed on primary cultures of nasal epithelial cells. In uncontrolled asthmatic patients, we observed not only an enhanced expression of these Th2-responsive transcripts, but also a down-regulation of interferon-responsive genes. Conclusion: Our study identifies a Th2 driven epithelial phenotype common to all dust mite allergic children. Besides, it suggests that epithelium is involved in the severity of the disease. Expression profiles observed in uncontrolled asthmatic patients suggest that severity of asthma is linked at the same time to atopy and to impaired viral response. Nasal epithelium gene expression profiling of dust mite allergic children with isolated rhinitis, rhinitis associated with asthma and controls.

Project description:The very low density lipoprotein receptor (VLDLR) is a multi-ligand receptor that mediates pleiotropic biological processes, such as brain development. In this dataset, we include the expression data obtained from lungs from mice that had been challenged with house dust mite to induce experimental asthma or saline, as a control. These data are used to obtain genes that are differentially expressed in response to VLDLR signaling. We compared wild type and VLDLR knock out mice that had been sensitized and challenged with house dust mite or saline, as a control. There were total 16 samples with four biological relicates in each group.

Project description:Allergic asthmatic, allergy only, asthma only (no allergy), and non-allergic non-asthmatic (control) subjects underwent bronchoscopy with instillation of saline, lipopolysaccharide (LPS), and house dust mite antigen in separate subsegmental bronchi. Bronchoalveolar lavage (BAL) fluid was collected four hours later (three samples per subject). Inflammatory cells from each specimen were isolated and RNA was extracted for microarray analysis. Experiment Overall Design: There are four main phenotypic groups: Experiment Overall Design: 1. control (no allergy or asthma) Experiment Overall Design: 2. allergy only (no asthma) Experiment Overall Design: 3. asthma only (no allergy) Experiment Overall Design: 4. allergy and asthma Experiment Overall Design: and three exposures: saline, house dust mite antigen (HDM), and LPS. Experiment Overall Design: Samples from the different exposures were all collected at the same time: four hours after instillation. The hybridizations were carried out in two main 'batches': samples in batch 1 were processed in mid 2004, samples in batch 2 about a year later in 2005. There is a clear 'batch effect': differences between expression profiles from the two batches (likely caused by technical differences between hybridization and scanning methods). This should be considered when analyzing the data.

Project description:Allergic asthmatic, allergy only, asthma only (no allergy), and non-allergic non-asthmatic (control) subjects underwent bronchoscopy with instillation of saline, lipopolysaccharide (LPS), and house dust mite antigen in separate subsegmental bronchi. Airway epithelial cells were collected four hours later (three samples per subject). RNA was extracted from these cells for microarray analysis. Experiment Overall Design: There are four main phenotypic groups: Experiment Overall Design: 1. control (no allergy or asthma) Experiment Overall Design: 2. allergy only (no asthma) Experiment Overall Design: 3. asthma only (no allergy) Experiment Overall Design: 4. allergy and asthma Experiment Overall Design: and three exposures: saline, house dust mite antigen (HDM), and LPS. Samples from the different exposures were all collected at the same time: four hours after instillation. The hybridizations were carried out in two main "batches": samples in batch 1 were processed in mid 2004, samples in batch 2 about a year later in 2005. There is a clear "batch effect": differences between expression profiles from the two batches (likely caused by technical differences between hybridization and scanning methods). This should be considered when analyzing the data.

Project description:To analyze circulating miRNA signatures using a house dust mite model (HDM) of asthma. microRNA sequencing (miRNA-seq) was performed using serum from BALB/c mice (male and female, ages 6-8 weeks old).

Project description:To analyze lung miRNA signatures using a house dust mite model (HDM) of asthma. microRNA sequencing (miRNA-seq) from BALB/c mice (male and female, ages 6-8 weeks old) lung tissue was performed.

Project description:To identify relevant mRNA targets of differentially dysregulated lung miRNA signatures of a house dust mite mouse (HDM) model of asthma. cDNA libraries were constructed using the same lung RNA samples as the miRNA libraries preparation.

Project description:Background: In asthma, airway epithelium remodeling can already be detected during childhood, and epithelial cells are more susceptible to virus and oxidative stress. Their exact role in natural history and severity of children allergic respiratory disease remains however surprisingly unexplored. Aim: To analyze dysfunctions of epithelium in dust mite allergic respiratory disease (rhinitis ± asthma) in children. Methods: Expression profilings of nasal epithelial cells collected by brushing were performed on Affymetrix Hugene 1.0 ST arrays. All allergic patients were sensitized to dust mite. 19 patients had an isolated allergic rhinitis (AR). 14 patients had AR associated with asthma. Patients were compared to 12 controls, their severity and control being assessed according to NAEPP and ARIA criteria. Infections by respiratory viruses were excluded by real-time PCR measurements. Results: 61 probes were able to distinguish allergic rhinitis children from healthy controls. A majority of these probes was under the control of Th2 cytokines, as evidenced by parallel experiments performed on primary cultures of nasal epithelial cells. In uncontrolled asthmatic patients, we observed not only an enhanced expression of these Th2-responsive transcripts, but also a down-regulation of interferon-responsive genes. Conclusion: Our study identifies a Th2 driven epithelial phenotype common to all dust mite allergic children. Besides, it suggests that epithelium is involved in the severity of the disease. Expression profiles observed in uncontrolled asthmatic patients suggest that severity of asthma is linked at the same time to atopy and to impaired viral response. Differentiated HNECs gene expression profiling in context of Th2 and IFN cytokine stimulation Each condition was performed in triplicates: total of 21 samples