"The Bronchoalveolar Proteome Changes in Obesity" by William G. Tharp, Carlos A. Gartner et al.
 

The Bronchoalveolar Proteome Changes in Obesity

Document Type

Article

Publication Date

5-27-2025

Institution/Department

Center for Molecular Medicine

Journal Title

American journal of physiology. Lung cellular and molecular physiology

Abstract

Obesity contributes to pulmonary dysfunction through poorly understood biochemical mechanisms. Chronic inflammation and altered cellular metabolism have emerged as pathologic changes across organ systems in obesity, but whether similar changes occur in the lungs with obesity is unknown. We collected bronchoalveolar lavage fluid (BALF) from right upper lobe and lingula pulmonary subsegments of 14 adults (7 males / 7 females) with body mass indexes (BMI) ranging from 24.3 to 50.9 kg/m without lung disease. Proteomes were measured using SWATH mass spectrometry. Proteomic composition and pathway enrichments were examined for the cohort and as a function of BMI. BALF proteomic compositions were consistent with prior studies and had improved protein identification. We found minimal differences in BALF proteomes between lavage regions. Five proteins were strongly correlated with BMI (False Detection Rate / FDR adjusted p-values < 0.05) and 11had weaker correlation (FDR adjusted p-values 0.05 - 0.1). These proteins included acute phase reactants and complement factors. Few proteomic differences between biologic sexes were detected, but some of them coincided with BMI-related proteins. Pathway enrichments impacted by BMI included innate immunity, anti-fibrinolysis, oxidative stress, and lipid metabolism. The bronchoalveolar microenvironment is altered by obesity in humans without lung disease. Pathway alterations associated with BMI included coagulation and fibrinolysis, redox and oxidative stress, energy metabolism, and humoral immune function. Our data support the theory that conserved biochemical and cellular changes in obesity may be fundamental mechanisms of dysfunction in multiple tissues but the specific impact on pulmonary function or disease is not yet known.

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