Abstract Rationale Bronchopulmonary dysplasia (BPD) is a chronic lung disease that significantly affects premature infants, leading to impaired lung development, inflammation, and fibrosis due to sustained exposure to high oxygen levels in the Neonatal Intensive Care Unit (NICU). In BPD, airway narrowing and hyperreactivity are common, making bronchodilation beneficial. Caffeine, a respiratory stimulant typically used for apnea of prematurity, also has bronchodilatory properties. This study investigates caffeine’s impact on airway remodeling (fibrosis and cellular proliferation) in fetal airway smooth muscle cells (fASMs) exposed to mild hyperoxic stress. By inhibiting phosphodiesterase, caffeine increases cyclic adenosine monophosphate (cAMP) levels, thereby relaxing airway smooth muscle. Caffeine’s influence on calcium (Ca2+) kinetics is essential for muscle contraction and relaxation. The goal is to better understand caffeine’s therapeutic role in bronchodilation and reducing fibrosis and proliferation in BPD. Methods Ca2+ imaging, proliferation assay, and immunofluorescence imaging (IF) were performed. fASMs were exposed to normoxia (21% O2) or mild hyperoxia (∼40% O2) for 48 hours, with or without caffeine treatment. Results Acute caffeine exposure (25 mM) decreased Ca2+ amplitude (corresponding to a dilatory effect) after addition of acetylcholine (10 μM) in normoxia. Caffeine treatment reduced cell proliferation in both normoxic and hyperoxic groups. Caffeine decreased both Ki67 (marker of proliferation) and Col1a1 (marker of fibrosis) protein expression under hyperoxic conditions. Conclusions Caffeine influences Ca2+ signaling, reduces cell proliferation and fibrosis, and, thus, may modulate airway remodeling and hyperreactivity under hyperoxic stress, suggesting its potential as a therapeutic strategy for BPD. This abstract is funded by: NIH R01 HL56470, R01 HL177837
Macawili et al. (Fri,) studied this question.