Erin Victroria McGillick ^1* Sandra Orgeig ¹ Beth J Allison ² Kirsty L Brain ² Melanie R Bertossa ¹ Stacey Holman ¹ Ashley Meakin ¹ Michael D Wiese ¹ Youguo Niu ² Nozomi Itani ² Katie L Skeffington ² Christian Beck ² Kimberley Jae Botting ² Janna L Morrison ¹ Dino Giussani ²

• ¹ University of South Australia, Adelaide, Australia
• ² University of Cambridge, Cambridge, England, United Kingdom

Introduction: Chronic fetal hypoxia is commonly associated with fetal growth restriction and can predispose to respiratory disease at birth and in later life. Antenatal antioxidant treatment has been investigated to overcome the effects of oxidative stress in utero to improve respiratory outcomes. We aimed to determine if the effects of chronic fetal hypoxia and antenatal antioxidant administration persist in the lung in early adulthood. Methods: Chronically catheterised pregnant sheep were exposed to normoxia (N; n=20) or hypoxia (H; n=18; 10% O2) ± maternal daily i.v. saline (N=11; H=8) or Vitamin C (VC; NVC=9; HVC=10) from 105-138d (term, ~145d). Lungs were collected from female lambs 9 months after birth (early adulthood). Lung tissue expression of genes and proteins regulating oxidative stress, mitochondrial function, hypoxia signalling, glucocorticoid signalling, surfactant maturation, inflammation and airway remodelling were measured. Results: Chronic fetal hypoxia upregulated lung expression of markers of prooxidant, surfactant lipid transport and airway remodelling pathways in early adulthood. Antenatal Vitamin C normalized prooxidant and airway remodelling markers, increased endogenous antioxidant, vasodilator and inflammatory markers, and altered regulation of hypoxia signalling and glucocorticoid availability. Conclusion: There are differential effects of antenatal Vitamin C on molecular markers in the lungs of female lambs from normoxic and hypoxic pregnancy in early adulthood.