O-2-evoked regulation of HIF-1 alpha and NF-kappa B in perinatal lung epithelium requires glutathione biosynthesis

To test the genetic capacity of the perinatal lung to respond to Oz shifts that coincide with the first respiratory movements, rat fetal alveolar type II (fATII) epithelial cells were cultured at fetal distal lung Po, (23 Tor r) and then exposed to postnatal (23 76 Torr; mild hyperoxic shift), modera te (23 --> 152 Torr; moderate hyperoxic shift), or severe (23 --> 722 Torr; severe hyperoxic shift) oxygenation. Nuclear abundance and consensus bindi ng characteristics of hypoxia-inducible factor (HIF)-1 alpha and nuclear fa ctor (NF)-kappa B (RelA/p65) plus glutathione biosynthetic capacity were de termined. Maximal HIF-1 alpha activation at 23 Torr was sustained over the postnatal shift in (Delta) Po, and was elevated in vivo throughout late ges tation. NF-KB was activated by the acute postnatal Delta Po-2, in fATII cel ls, becoming maximal with moderate and severe oxygenation in vitro and with in 6 h of birth in vivo, declining thereafter. fATII cell and whole lung gl utathione and GSH-to-GSSG ratio increased fourfold with a postnatal Delta P o-2 and were matched by threefold activity increases in gamma-glutamylcyste ine synthetase and glutathione synthase. GSH concentration depletion by L-b uthionine-(S,R)-sulfoximine abrogated both HIF-1 alpha and NF-KB activation , with HIF-1 alpha showing a heightened sensitivity to GSH concentration. W e conclude that O-2-linked genetic regulation in perinatal lung epithelium is responsive to developmental changes in glutathione biosynthetic capacity .