Abstract
Preterm infants with bronchopulmonary dysplasia (BPD) and pulmonary hypertension (PH) have accelerated lung aging and poor long-term outcomes. Klotho is an antiaging protein that modulates oxidative stress, angiogenesis and fibrosis. Here we test the hypothesis that decreased cord Klotho levels in preterm infants predict increased BPD–PH risk and early Klotho supplementation prevents BPD-like phenotype and PH in rodents exposed to neonatal hyperoxia. In experiment 1, Klotho levels were measured in cord blood of preterm infants who were enrolled in a longitudinal cohort study. In experiment 2, using an experimental BPD–PH model, rat pups exposed to room air or hyperoxia (85% O2) were randomly assigned to receive every other day injections of recombinant Klotho or placebo. The effect of Klotho on lung structure, PH and cardiac function was assessed. As compared to controls, preterm infants with BPD or BPD–PH had decreased cord Klotho levels. Early Klotho supplementation in neonatal hyperoxia-exposed rodents preserved lung alveolar and vascular structure, attenuated PH, reduced pulmonary vascular remodeling and improved cardiac function. Together, these findings have important implications as they suggest that perinatal Klotho deficiency contributes to BPD–PH risk and strategies that preserve Klotho levels, may improve long-term cardiopulmonary outcomes in preterm infants.
Highlights
Preterm infants with bronchopulmonary dysplasia (BPD) and pulmonary hypertension (PH) have accelerated lung aging and poor long-term outcomes
Since disordered lung angiogenesis is a key component of BPD–PH, and soluble Klotho has vasculoprotective effects, we evaluated whether early Klotho supplementation would preserve lung angiogenesis in our experimental BPD–PH model
Since infants with BPD complicated by PH grow poorly[2,37], and Klotho deficiency is associated with poor growth, we evaluated the effect of early Klotho supplementation on growth of rats exposed to neonatal hyperoxia
Summary
Preterm infants with bronchopulmonary dysplasia (BPD) and pulmonary hypertension (PH) have accelerated lung aging and poor long-term outcomes. We tested the hypothesis that decreased cord Klotho levels in preterm infants is associated with increased BPD–PH risk and that early Klotho supplementation decreases oxidative stress, suppresses fibrosis, improves lung vascular development and prevents BPD-like phenotype and PH in rodents exposed to neonatal hyperoxia. Given the multifactorial etiology of BPD and PH in preterm infants and the significant contribution of hyperoxia to the pathogenesis of these diseases, we evaluated the effect of neonatal hyperoxia on lung and circulating Klotho levels in our experimental BPD–PH model.
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