Hyperoxic regulation of lung heme oxygenase in neonatal rats.

Abstract

In the neonatal lung, hyperoxic exposure is associated with induction of various genes and critical antioxidants. Heme oxygenase, specifically the HO-1 isoenzyme, is regulated in oxidant stress and may also serve to limit oxidative damage. However, it is not known whether neonatal lung HO-1 is regulated in hyperoxia specifically and, if so, what type of regulation occurs. Therefore, we attempted to answer these questions using newly born (< 12 h) Wistar rats exposed to hyperoxia for 3 d. Neonatal rat lungs were evaluated daily for total HO activity, immunoreactive HO-1 protein, and steady state levels of HO-1 mRNA and compared with air-exposed controls. In neonatal rats, we noted an increased lung HO activity after 3 d of hyperoxic exposure. Additionally, evaluation of HO activity after immunoprecipitation of HO-1 protein suggested that HO-1 contributed most of the increase in lung total HO activity observed in hyperoxia. Nonetheless, we did not see a significant difference in immunoreactive HO-1 protein in neonatal lungs after 3 d of hyperoxic exposure, although we did so on d 2. Also, in contrast with previous reports, we did not detect any significant differences in steady state levels of HO-1 mRNA on any day of hyperoxic exposure compared with air. We therefore conclude that neonatal rat lung HO-1 is regulated in hyperoxia and speculate that the regulation of neonatal lung HO-1 occurs by posttranscriptional mechanisms, at least within the first days of hyperoxic exposure.