We investigated the effects of gestational age and oxygen exposure on superoxide dismutase (SOD) activities in distal fetal lung tissue in primate models of bronchopulmonary dysplasia. During the final third of fetal life, lung coppper-zinc SOD (Cu,ZnSOD) specific activity decreased, whereas lung manganese SOD (MnSOD) specific activity tended to increase. In the premature newborn (140 days, 78% of term gestation), lung total SOD and Cu,ZnSOD specific activities decreased after 6-10 days of ventilation with as needed [pro re nada (PRN)] or 100% oxygen compared with fetal control animals. Neither Cu,ZnSOD mRNA nor protein expression changed after either oxygen exposure at this gestation (140 days) relative to fetal control animals. At this age (6-10 days), lung MnSOD specific activity did not change in oxygen-exposed relative to fetal control animals, even though lung expression of MnSOD mRNA and protein increased after PRN or 100% oxygen exposure. In the very premature 125-day newborn (69% of term), lung Cu,ZnSOD specific activity and protein decreased, whereas Cu,ZnSOD mRNA increased, after 6-10 days of ventilation with PRN oxygen compared with fetal control animals. In fetal lung explants, hyperoxia also decreased expression of SOD activity acutely (16-h exposure, 125 and 140 days gestation). To conclude, expression of SOD activity in the premature primate lung did not increase in response to elevated oxygen tension, apparently due to effects occurring subsequent to the expression of these mRNAs.