MECHANISM OF OXYGEN DETOXIFICATION IN NEONATAL RAT LUNG TISSUE

— Pulmonary macrophages obtained from neonatal rats contain approximately four times the activity of cyanide resistant superoxide dismutase and catalase compared with the cells from adult animals. The activity is highest immediately after birth and diminishes with age until the minimum level is reached at approximately 3 weeks of age. Superimposed upon this change in basal activity is the capability of neonatal cells to synthesize additional cyanide resistant superoxide dismutase and catalase when either the animals or isolated pulmonary macrophages are exposed to 95–100% oxygen. The inductive effect begins at 2–3 days after birth, peaks at 10 days, and disappears at approximately 15 days after birth. In contrast to adult rats, neonatal rats are extremely resistant to the toxic effects of oxygen. If, however, the oxygen mediated increase in both enzymes is prevented or the maximum effective pulmonary macrophage number is diminished in test animals, these animals become vulnerable to toxic effects of oxygen exposure, observed by gross and histologic examination of lung tissue, in a manner similar to adult animals. These data indicate that both cyanide‐resistant superoxide dismutase and catalase may be part of the endogenous defense mechanisms which provide neonatal rats with an exceptional resistance to oxygen toxicity.