Abstract
Bile acid profiles are altered in obese individuals with asthma. Thus, we sought to better understand how obesity-related systemic changes contribute to lung pathophysiology. We also test the therapeutic potential of nitro-oleic acid (NO2-OA), a regulator of metabolic and inflammatory signaling pathways, to mitigate allergen and obesity-induced lung function decline in a murine model of asthma. Bile acids were measured in the plasma of healthy subjects and individuals with asthma and serum and lung tissue of mice with and without allergic airway disease (AAD). Lung function, indices of inflammation and hepatic bile acid enzyme expression were measured in obese mice with house dust mite-induced AAD treated with vehicle or NO2-OA. Serum levels of glycocholic acid and glycoursodeoxycholic acid clinically correlate with body mass index and airway hyperreactivity whereas murine levels of β-muricholic acid and tauro-β-muricholic acid were significantly increased and positively correlated with impaired lung function in obese mice with AAD. NO2-OA reduced murine bile acid levels by modulating hepatic expression of bile acid synthesis enzymes, with a concomitant reduction in small airway resistance and tissue elastance. Bile acids correlate to body mass index and lung function decline and the signaling actions of nitroalkenes can limit AAD by modulating bile acid metabolism, revealing a potential pharmacologic approach to improving the current standard of care.
Highlights
Bile acid profiles are altered in obese individuals with asthma
Plasma levels of glycocholic acid (GCA) were significantly increased in individuals with asthma compared to healthy subjects (p = 0.018) and glycoursodeoxycholic acid (GUDCA) trended towards significance (p = 0.066) (Fig. 1A)
While neither GUDCA or GCA significantly correlated with fractional exhaled nitric oxide or bronchoalveolar lavage (BAL) eosinophils, there was a trend towards a negative correlation with GUDCA and blood eosinophil levels in the Pittsburgh cohort (Fig. S1)
Summary
Bile acid profiles are altered in obese individuals with asthma. we sought to better understand how obesity-related systemic changes contribute to lung pathophysiology. We test the therapeutic potential of nitro-oleic acid (NO2-OA), a regulator of metabolic and inflammatory signaling pathways, to mitigate allergen and obesity-induced lung function decline in a murine model of asthma. Bile acids were measured in the plasma of healthy subjects and individuals with asthma and serum and lung tissue of mice with and without allergic airway disease (AAD). Indices of inflammation and hepatic bile acid enzyme expression were measured in obese mice with house dust mite-induced AAD treated with vehicle or NO2-OA. Serum levels of glycocholic acid and glycoursodeoxycholic acid clinically correlate with body mass index and airway hyperreactivity whereas murine levels of β-muricholic acid and tauro-β-muricholic acid were significantly increased and positively correlated with impaired lung function in obese mice with AAD. Metabolomics studies have identified changes in bile acid profiles in individuals with asthma or food allergies; the relationship between altered bile acid profiles and lung function remains u nclear[6,15,16]
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