Andrea M. Coverstone

Plasma interleukin-6 concentrations, metabolic dysfunction, and asthma severity: a cross-sectional analysis of two cohorts

BACKGROUND Severe asthma is a complex heterogeneous disease associated with older age and obesity. The presence of eosinophilic (type 2) inflammation in some but not all patients with severe asthma predicts responsiveness to current treatments, but new treatment approaches will require a better understanding of non-type 2 mechanisms of severe asthma. We considered the possibility that systemic inflammation, which arises in subgroups of obese and older patients, increases the severity of asthma. Interleukin-6 (IL-6) is a biomarker of systemic inflammation and metabolic dysfunction, and we aimed to explore the association between IL-6 concentrations, metabolic dysfunction, and asthma severity. METHODS In this cross-sectional analysis, patients were recruited from two cohorts: mainly non-severe asthmatics from the University of California San Francisco (UCSF) and mainly severe asthmatics from the Severe Asthma Research Program (SARP). We generated a reference range for plasma IL-6 in a cohort of healthy control patients. We compared the clinical characteristics of asthmatics with plasma IL-6 concentrations above (IL-6 high) and below (IL-6 low) the upper 95% centile value for plasma IL-6 concentration in the healthy cohort. We also compared how pulmonary function, frequency of asthma exacerbations, and frequency of severe asthma differed between IL-6 low and IL-6 high asthma populations in the two asthma cohorts. FINDINGS Between Jan 1, 2005, and Dec 31, 2014, we recruited 249 patients from UCSF and between Nov 1, 2012, and Oct 1, 2014, we recruited 387 patients from SARP. The upper 95th centile value for plasma IL-6 concentration in the healthy cohort (n=93) was 3·1 pg/mL, and 14% (36/249) of UCSF cohort and 26% (102/387) of the SARP cohort had plasma IL-6 concentrations above this upper limit. The IL-6 high patients in both asthma cohorts had a significantly higher average BMI (p<0·0001) and a higher prevalence of hypertension (p<0·0001) and diabetes (p=0·04) than the IL-6 low patients. IL-6 high patients also had significantly worse lung function and more frequent asthma exacerbations than IL-6 low patients (all p values <0·0001). Although 80% (111/138) of IL-6 high asthmatic patients were obese, 62% (178/289) of obese asthmatic patients were IL-6 low. Among obese patients, the forced expiratory volume in 1 s (FEV1) was significantly lower in IL-6 high than in IL-6 low patients (mean percent predicted FEV1=70·8% [SD 19·5] vs 78·3% [19·7]; p=0·002), and the percentage of patients reporting an asthma exacerbation in the past 1-2 years was higher in IL-6 high than in IL-6 low patients (66% [73/111] vs 48% [85/178]; p=0·003). Among non-obese asthmatics, FEV1 values and the frequency of asthma exacerbations within the past 1-2 years were also significantly worse in IL-6 high than in IL-6 low patients (mean FEV1 66·4% [SD 23·1] vs 83·2% [20·4] predicted; p<0·0001; 59% [16/27] vs 34% [108/320]; p=0·01). INTERPRETATION Systemic IL-6 inflammation and clinical features of metabolic dysfunction, which occur most commonly in a subset of obese asthma patients but also in a small subset of non-obese patients, are associated with more severe asthma. These data provide strong rationale to undertake clinical trials of IL-6 inhibitors or treatments that reduce metabolic dysfunction in a subset of patients with severe asthma. Plasma IL-6 is a biomarker that could guide patient stratification in these trials. FUNDING NIH and the Parker B Francis Foundation.

Inflammatory and Comorbid Features of Patients with Severe Asthma and Frequent Exacerbations

Rationale: Reducing asthma exacerbation frequency is an important criterion for approval of asthma therapies, but the clinical features of exacerbation‐prone asthma (EPA) remain incompletely defined. Objectives: To describe the clinical, physiologic, inflammatory, and comorbidity factors associated with EPA. Methods: Baseline data from the NHLBI Severe Asthma Research Program (SARP)‐3 were analyzed. An exacerbation was defined as a burst of systemic corticosteroids lasting 3 days or more. Patients were classified by their number of exacerbations in the past year: none, few (one to two), or exacerbation prone (≥3). Replication of a multivariable model was performed with data from the SARP‐1 + 2 cohort. Measurements and Main Results: Of 709 subjects in the SARP‐3 cohort, 294 (41%) had no exacerbations and 173 (24%) were exacerbation prone in the prior year. Several factors normally associated with severity (asthma duration, age, sex, race, and socioeconomic status) did not associate with exacerbation frequency in SARP‐3; bronchodilator responsiveness also discriminated exacerbation proneness from asthma severity. In the SARP‐3 multivariable model, blood eosinophils, body mass index, and bronchodilator responsiveness were positively associated with exacerbation frequency (rate ratios [95% confidence interval], 1.6 [1.2‐2.1] for every log unit of eosinophils, 1.3 [1.1‐1.4] for every 10 body mass index units, and 1.2 [1.1‐1.4] for every 10% increase in bronchodilatory responsiveness). Chronic sinusitis and gastroesophageal reflux were also associated with exacerbation frequency (1.7 [1.4‐2.1] and 1.6 [1.3‐2.0]), even after adjustment for multiple factors. These effects were replicated in the SARP‐1 + 2 multivariable model. Conclusions: EPA may be a distinct susceptibility phenotype with implications for the targeting of exacerbation prevention strategies. Clinical trial registered with www.clinicaltrials.gov (NCT 01760915).

Natural killer cell–mediated inflammation resolution is disabled in severe asthma

Severe asthma is characterized by decreased NK cell cytotoxicity, and corticosteroids further disable NK cell function. NK cells in severe asthma—Failed resolution Anti-inflammatory corticosteroids are a first line of defense against many types of asthma, but patients with severe asthma do not frequently respond to this therapy. Duvall et al. now report that this lack of response may be due in part to defects in natural killer (NK) cells, which are important mediators of inflammation resolution. They found that NK cells from patients with severe asthma had impaired killing and that corticosteroid exposure further inhibited the function of these cells, whereas the proresolving mediator LXA4 preserved NK cell effector mechanisms. Therefore, corticosteroids may be a counterproductive therapy in patients with severe asthma, and specifically activating NK cells may provide an alternate therapeutic target. Severe asthma is typically characterized by chronic airway inflammation that is refractory to corticosteroids and associated with excess morbidity. Patients were recruited into the National Heart, Lung, and Blood Institute–sponsored Severe Asthma Research Program and comprehensively phenotyped by bronchoscopy. Bronchoalveolar lavage (BAL) cells were analyzed by flow cytometry. Compared with healthy individuals (n = 21), patients with asthma (n = 53) had fewer BAL natural killer (NK) cells. Patients with severe asthma (n = 29) had a marked increase in the ratios of CD4+ T cells to NK cells and neutrophils to NK cells. BAL NK cells in severe asthma were skewed toward the cytotoxic CD56dim subset, with significantly increased BAL fluid levels of the cytotoxic mediator granzyme A. The numbers of BAL CD56dim NK cells and CCR6−CCR4− T helper 1–enriched CD4+ T cells correlated inversely with lung function [forced expiratory volume in 1 s (FEV1) % predicted] in asthma. Relative to cells from healthy controls, peripheral blood NK cells from asthmatic patients had impaired killing of K562 myeloid target cells despite releasing more cytotoxic mediators. Ex vivo exposure to dexamethasone markedly decreased blood NK cell lysis of target cells and cytotoxic mediator release. NK cells expressed airway lipoxin A4/formyl peptide receptor 2 receptors, and in contrast to dexamethasone, lipoxin A4–exposed NK cells had preserved functional responses. Together, our findings indicate that the immunology of the severe asthma airway is characterized by decreased NK cell cytotoxicity with increased numbers of target leukocytes, which is exacerbated by corticosteroids that further disable NK cell function. These failed resolution mechanisms likely contribute to persistent airway inflammation in severe asthma.

Baseline Features of the Severe Asthma Research Program (SARP III) Cohort: Differences with Age

BACKGROUND The effect of age on asthma severity is poorly understood. OBJECTIVES The objective of this study was to compare the baseline features of severe and nonsevere asthma in the Severe Asthma Research Program (SARP) III cohort, and examine in cross section the effects of age on those features. METHODS SARP III is a National Institutes of Health/National Heart Lung Blood Institute multisite 3-year cohort study conducted to investigate mechanisms of severe asthma. The sample included 188 children (111 severe, 77 nonsevere) and 526 adults (313 severe, 213 nonsevere) characterized for demographic features, symptoms, health care utilization, lung function, and inflammatory markers compared by age and severity. RESULTS Compared with children with nonsevere asthma, children with severe asthma had more symptoms and more historical exacerbations, but no difference in body weight, post-bronchodilator lung function, or inflammatory markers. After childhood, and increasing with age, the cohort had a higher proportion of women, less allergen sensitization, and overall fewer blood eosinophils. Enrollment of participants with severe asthma was highest in middle-aged adults, who were older, more obese, with greater airflow limitation and higher blood eosinophils, but less allergen sensitization than adults with nonsevere asthma. CONCLUSIONS The phenotypic features of asthma differ by severity and with advancing age. With advancing age, patients with severe asthma are more obese, have greater airflow limitation, less allergen sensitization, and variable type 2 inflammation. Novel mechanisms besides type 2 inflammatory pathways may inform the severe asthma phenotype with advancing age.

DNA and Inflammatory Mediators in Bronchoalveolar Lavage Fluid From Children With Acute Inhalational Injuries

The aim of this study was to assess the feasibility of using serial bronchoalveolar lavage fluids (BALFs) to characterize the course of cell damage and inflammation in the airways of pediatric patients with acute burn or inhalation injury. This was a prospective, longitudinal, descriptive pilot study conducted at the Burn and Pediatric Intensive Care Units in a tertiary care medical center. Six consecutively intubated and mechanically ventilated pediatric patients with acute inhalational injuries were studied. Serial BALF specimens from clinically indicated bronchoscopies were used to measure DNA and cytokine levels. BALF DNA levels for the six pediatric burn subjects were the highest within the first 72 hours after burn injury and declined thereafter. At the early stages after injury, BALF DNA levels (median [min, max] 3789 [1170, 11,917] ng/ml) were similar to those in adult burn patients and pediatric cystic fibrosis or bronchiectasis patients and was higher than those in pediatric recurrent pneumonia patients. BALF DNA levels in children and adults with inhalation injury correlated significantly with BALF interleukin-6, interleukin-8, and transforming growth factor-&bgr;1 levels. The patient with the most severe early visible airway mucosal damage and soot pattern at bronchoscopy, as well as the most extensive burns, also had the highest average early BALF DNA level (11,917ng/ml) and the longest ventilator course and hospital stay. Procedures were well tolerated. In children with acute burn and inhalational injury, airway cellular damage and inflammation (reflected in high BALF DNA levels) appear to peak during the first 72 hours after burn or inhalation injury followed by a slow decline. Serial analysis of factors in airway secretions is feasible and has the potential to reveal important pathophyisiologic pathways and therapeutic targets for the treatment of acute inhalational injuries.

ALX receptor ligands define a biochemical endotype for severe asthma

Original citation: JCI Insight. 2017;2(14):1–14. https://doi.org/10.1172/jci.insight.93534 Citation for this corrigendum: JCI Insight. 2018;3(6):e120932. https://doi.org/10.1172/jci.insight.120932 Following the publication of this article, the authors became aware that there was an error in calculating the FEV1 percentage predicted, FVC percentage predicted, and FEV1/FVC percentage predicted values for subjects of mixed European descent in the SARP cohort. Correcting this error resulted in lower FEV1 and FVC percentage predicted values and slightly higher FEV1/FVC percentage predicted values — and required corrections to the spirometry data presented in Table 1, Figure 2, Figure 5F, and Supplemental Figure 2, A and B. These corrections do not change the finding that lipoxin A4 levels positively correlate with lung function in asthma and that subjects with SAAhiLXA4lo levels have lower lung function than subjects with SAAloLXA4hi levels nor do they alter the conclusions of the study. The corrected versions of Figure 2, Figure 5F, and Table 1 are below. The posted supplemental data have been updated. The authors regret the errors. Supplementary Material Supplemental data Corrigendum