Substrate-dependent metabolomic signatures of myeloperoxidase activity in airway epithelial cells: Implications for early cystic fibrosis lung disease.

Myeloperoxidase (MPO) is released by neutrophils in inflamed tissues. MPO oxidizes chloride, bromide, and thiocyanate to produce hypochlorous acid (HOCl), hypobromous acid (HOBr), and hypothiocyanous acid (HOSCN), respectively. These oxidants are toxic to pathogens, but may also react with host cells to elicit biological activity and potential toxicity. In cystic fibrosis (CF) and related diseases, increased neutrophil inflammation leads to increased airway MPO and airway epithelial cell (AEC) exposure to its oxidants. In this study, we investigated how equal dose-rate exposures of MPO-derived oxidants differentially impact the metabolome of human AECs (BEAS-2B cells). We utilized enzymatic oxidant production with rate-limiting glucose oxidase (GOX) coupled to MPO, and chloride, bromide (Br-), or thiocyanate (SCN-) as substrates. AECs exposed to GOX/MPO/SCN- (favoring HOSCN) were viable after 24 h, while exposure to GOX/MPO (favoring HOCl) or GOX/MPO/Br- (favoring HOBr) developed cytotoxicity after 6 h. Cell glutathione and peroxiredoxin-3 oxidation were insufficient to explain these differences. However, untargeted metabolomics revealed GOX/MPO and GOX/MPO/Br- diverged significantly from GOX/MPO/SCN- for dozens of metabolites. We noted methionine sulfoxide and dehydromethionine were significantly increased in GOX/MPO- or GOX/MPO/Br--treated cells, and analyzed them as potential biomarkers of lung damage in bronchoalveolar lavage fluid from 5-year-olds with CF (n = 27). Both metabolites were associated with increasing bronchiectasis, neutrophils, and MPO activity. This suggests MPO production of HOCl and/or HOBr may contribute to inflammatory lung damage in early CF. In summary, our in vitro model enabled unbiased identification of exposure-specific metabolite products which may serve as biomarkers of lung damage in vivo. Continued research with this exposure model may yield additional oxidant-specific biomarkers and reveal explicit mechanisms of oxidant byproduct formation and cellular redox signaling.

Disposition Decisions in Cases of Medical Complexity and Health Inequity.

The question of optimal disposition for children with complex medical and social circumstances has long challenged the well-intentioned clinician. The coronavirus disease 2019 pandemic created unique difficulties for patients, families, and health care providers, in addition to highlighting long-standing racial and socioeconomic inequities in health care. In pediatric hospitals, necessary public health measures such as visitor restrictions shifted many shared decision-making processes such as discharge planning from complicated to impossible. Here, we present the case of a medically complex adult (with a long-standing pediatric condition) whose surrogate decision-maker objected to discharge to a long-term care facility because of restrictions and risks associated with the coronavirus disease 2019 pandemic. We offer the commentary of experts in clinical ethics, intensive care, inpatient subacute care, and palliative care. Our discussion includes analysis of the ethical considerations involved in the case, concrete guidance on steps toward an ethically permissible discharge, and suggestions for how a health equity lens can improve communication and decision-making for families who are victims of systemic racism and economic discrimination.