Project description:Childhood asthma is a complex disease historically defined by partially overlapping clinical features, including recurrent respiratory symptoms and reversible airway obstruction. However, the heterogeneity observed in clinical disease and airway pathology suggests that the “traditionally” defined asthma population is composed of multiple subgroups (i.e., endotypes), each with a distinct pathogenesis. Gene expression profiling of bronchial airway brushings identified the type 2-high asthma endotype, defined by excessive airway inflammation driven by type 2 cytokines, which was found in ~50% of subjects. Importantly, response to inhaled corticosteroid treatment was limited to this type 2-high endotype. The clinical utility of type 2-high asthma endotyping and the discovery of other endotypes have been limited by the need to perform an invasive bronchoscopy to obtain the bronchial brushings for analysis. Moreover, research bronchoscopies cannot be performed in children. Less invasive methods for the identification of asthma endotypes are needed. To this end, we found that the type 2-high asthma endotype can be identified by gene expression profiling of minimally invasive nasal airway epithelium brushings. Moreover, we found high nasal expression of the type 2 cytokine, IL-13,4 was associated with higher risk of asthma exacerbations among Puerto Ricans, who have the highest asthma morbidity and mortality in the U.S. Herein, we propose to use whole transcriptome sequencing of nasal airway epithelial brushings from Puerto Rican children with asthma to identify the type 2-high and other asthma endotypes, which relate to severity and drug response.

Project description:The aim of the experiment was to assign patients enrolled in the VANISH randomised trial to sepsis response signature (SRS) endotypes based on a previously published gene expression signature, in order to test for differential responses to treatment. VANISH was a double-blind randomised clinical trial in septic shock, with patients randomised to receive norepinephrine or vasopressin followed by hydrocortisone or placebo. We collected blood samples upon enrolment, extracted RNA and performed transcriptomic profiling using microarrays, allocated patients to SRS1 or SRS2 using a linear model (Davenport 2016), and tested for an association between sepsis endotype and response to either norepinephrine or vasopressin, or to corticosteroids. There was a significant interaction between treatment with hydrocortisone or placebo, and SRS endotype (p=0·02)

Project description:This study aimed to establish molecular endotypes in osteoarthritis soft joint tissue driven by obesity in both load-bearing and non-load bearing joints. Transcriptomic analysis found the inflammatory landscape of OA synovial fibroblasts (SF) are independently impacted by obesity, joint loading, and anatomical site with significant heterogeneity between obese and normal weight patients. These findings demonstrate the significance of obesity in changing the inflammatory landscape of synovial fibroblasts in both load bearing and non-load bearing joints. The molecular endotypes identified may provide a route for the stratification of patients in clinical trials, providing a rational for the therapeutic targeting of specific SF subsets in specific patient populations with arthritic conditions.

Project description:Background: Few studies have analyzed the blood transcriptome in atopic dermatitis (AD). Objective: We explored blood transcriptomic features of moderate to severe AD. Results: AD patients showed pronounced inflammatory expression signatures with increased myeloid and IL-5-related patterns, and clearly segregated into 2 distinct clusters, with striking differences in particular for transcripts involved in eosinophil signaling. The eosinophil-high endotype showed a more pronounced global dysregulation, a positive correlation between disease activity and signatures related to IL-5 signaling, and strong correlations with several target proteins of antibodies or small molecules under development for AD. In contrast, the eosinophil-low endotype showed little transcriptomic dysregulation and no association between disease activity and gene expression. Clinical improvement with receipt of dupilumab was accompanied by a decrease of innate immune responses and an increase of lymphocyte signatures including B-cell activation and natural killer cell composition and/or function. The proportion of super responders was higher in the eosinophil-low endotype (32% vs 11%). Continued downregulation of IL18RAP, IFNG, and granzyme A in the eosinophil-high endotype suggests a residual disturbance of natural killer cell function despite clinical improvement. Conclusion: AD can be stratified into eosinophilic and noneosinophilic endotypes; such stratification may be useful when assessing stratified trial designs and treatment strategies.

Project description:This study used nasal transcriptomic profiling of the inferior turbinate in control and pediatric ARDS subjects to identify endotypes. This data set is for amplified specimens. The study identfied three pediatric ARDS endotypes.

Project description:This study used nasal transcriptomic profiling of the inferior turbinate in control and pediatric ARDS subjects to identify endotypes. This data set is for non-amplified specimens. The study identfied three pediatric ARDS endotypes.

Project description:COPD is a heterogeneous condition without effective disease modifying therapies. Identification of novel inflammatory endotype markers such as extracellular vesicles (EVs), which are important intercellular messengers carrying microRNA (miRNA), may enable earlier diagnosis and disease stratification for a targeted treatment approach. Our aim was to identify differentially expressed EV miRNA in the lungs of COPD patients compared with healthy ex-smokers and determine whether they can help define inflammatory COPD endotypes. EV miRNA were isolated and sequenced from ex-smoking COPD patients and healthy ex-smoker bronchoalveolar lavage fluid. Results were validated with RT-qPCR and compared to differential inflammatory cell counts. Differential expression analysis identified five upregulated miRNA in COPD (miR-223-3p, miR-2110, miR-182-5p, miR-200b-5p and miR-625-3p) and three downregulated miRNA (miR-138-5p, miR-338-3p and miR-204-5p), all with a log2 fold change of >1/-1, FDR<0.05. These miRNAs correlated with disease defining characteristics such as FEF 25-75% (a small airways disease measure) and DLCO % (a surrogate measure of emphysema). Receiver operator curve analysis demonstrated miR-2110, miR-223-3p and miR-182-5p showed excellent combinatory predictive ability (AUC 0.91, p<0.0001) in differentiating between health and mild COPD. Furthermore, miR-223-3p and miR-338-3p correlated with airway eosinophilia and were able to distinguish “pure eosinophilic” COPD from other airway inflammatory subtypes (AUC 0.94 and 0.85 respectively). This is the first study to identify differentially expressed miRNA in COPD bronchoalveolar lavage fluid EVs. These findings suggest specific lung derived EV miRNA are a strong predictor of disease presence even in mild COPD. Furthermore, specific miRNA correlated with inflammatory cell numbers in COPD, and may have a role in defining inflammatory endotypes for future treatment stratification.

Project description:Identifying at first clinical presentation gene expression signatures that predict subsequent severity will allow clinicians to identify the most at risk groups of patients, and also enable appropriate antibiotic use. Accordingly, we characterized the blood immune profiles of patients with early/pre-sepsis to identify signatures reflecting disease severity, organ dysfunction, mortality, and specific endotypes/mechanisms.

Project description:Objectives: This study aimed to investigate the association between immunoglobulin G (IgG) N-glycosylation patterns and the clinical endotypes of patients with idiopathic inflammatory myopathies (IIM), potentially informing disease classification and therapeutic target identification. Methods: We recruited 168 IIM patients and 52 healthy controls, and performed IgG N-glycosylation profiling using liquid chromatography-tandem mass spectrometry (LC-MS/MS) and employed GlycoQuant for intact glycopeptide analysis. Clinical data were extracted, and statistical analyses were conducted to correlate glycosylation profiles with clinical manifestations. Unsupervised clustering analysis was applied to identify novel IIM subgroups based on differential IgG N-glycosylation. Results: Our analysis revealed significant disparities in IgG N-glycosylation between IIM patients and controls, with 13 specific glycoforms exhibiting marked alterations. The level of fucosylated glycans was significantly higher in the IIM patients than healthy controls. Three distinct IIM endotypes were identified, each characterized by unique glycosylation signatures and clinical phenotypes. These endotypes were not congruent with conventional diagnostic subgroups and demonstrated associations with various clinical outcomes, including muscle weakness, interstitial lung disease (ILD), and serological profiles.

Project description:Considering the complex and multifarious features of Chronic rhinosinusitis (CRS) including immunologic patterns, novel modalities are needed to reflect clinical and pathophysiological endotypes beyond nasal polyps.We aimed to investigate the proteome of nasal secretions on filter paper from CRS patients to characterize endotypes.