Transgenic extracellular superoxide dismutase protects postnatal alveolar epithelial proliferation and development during hyperoxia

doi:10.1152/ajplung.00133.2005

Transgenic extracellular superoxide dismutase protects postnatal alveolar epithelial proliferation and development during hyperoxia

Richard L. Auten,¹^,2 Michael A. O'Reilly,³^,4 Tim D. Oury,⁵ Eva Nozik-Grayck,¹ and Mary H. Whorton¹

Neonatal-Perinatal Research Institute, Departments of ¹Pediatrics and ²Cell Biology, Duke University Medical Center, Durham, North Carolina; Departments of ³Pediatrics and ⁴Environmental Medicine, University of Rochester, Rochester, New York; and ⁵Department of Pathology, University of Pittsburgh, Pittsburgh, Pennsylvania

Submitted 23 March 2005 ; accepted in final form 8 August 2005

Transgenic (TG) human (h) extracellular superoxide dismutase(EC-SOD) targeted to type II cells protects postnatal newbornmouse lung development against hyperoxia by unknown mechanisms.Because alveolar development depends on timely proliferationof type II epithelium and differentiation to type I epithelium,we measured proliferation in bronchiolar and alveolar (surfactantprotein C-positive) epithelium in air and 95% O₂-exposed wild-type(WT) and TG hEC-SOD newborn mice at postnatal days 3, 5, and7 (P3-P7), traversing the transition from saccular to alveolarstages. We found that TG hEC-SOD ameliorated the 95% O₂-impairedbromodeoxyuridine uptake in alveolar and bronchiolar epitheliumat P3, but not at P5 and P7, when overall epithelial proliferationrates were lower in air-exposed WT mice. Mouse EC-, CuZn-, andMn-SOD expression were unaffected by hyperoxia or genotype.TG mice had less DNA damage than 95% O₂-exposed WT mice at P3,measured by TdT-mediated dUTP nick end labeling (P < 0.05).Hyperoxia induced cell-cycle inhibitory protein p21^cip/waf mRNAat P3, WT > TG, P = 0.06. 95% O₂ impaired apical expressionof type I cell ${alpha}$ protein (T1 ${alpha}$ ) in WT but not in TG mice at P3and increased T1 ${alpha}$ in WT and TG mice at P7. Reducing the 95% O₂-inducedimpairment of epithelial proliferation at a critical windowof lung development was associated with protection against DNAdamage and preservation of apical T1 ${alpha}$ expression at P3.

type I cell; T1 ${alpha}$ ; deoxyribonucleic acid damage

Address for reprint requests and other correspondence: R. L. Auten, DUMC Box 3373, Durham, NC 27710 (e-mail: auten{at}duke.edu)

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