Hyperoxic exposure of developing rat lung decreases tropoelastin mRNA levels that rebound postexposure.

These studies were undertaken to determine whether tropoelastin message expression in lung parenchymal tissue is altered in rats reared in an hyperoxic environment during the period of time that alveolar septation normally occurs. Rat pups were exposed to > 95% oxygen from days 4 to 14 and killed during the exposure and recovery periods. Results of in situ hybridizations indicated a delay in peak tropoelastin (TE) message levels in oxygen-exposed rats vs. controls, day 16 vs. day 11, respectively. In addition, lung parenchymal TE mRNA levels in the oxygen-exposed pups remained elevated through day 23, 1 wk after TE mRNA levels had decreased in controls. These observations suggest that the regulatory control of elastin synthesis during lung alveolar septation is altered by hyperoxic exposure. In a separate experiment, rat pups were exposed to > 95% oxygen during the period of alveolarization and followed for 4 wk postexposure. Pulmonary function measurements were conducted to determine whether lung function was altered postexposure and, if so, whether recovery occurred. We also used stereological techniques to quantitate the total length of lung parenchymal elastic fibers to determine whether elastic fiber content in the oxygen-exposed pups was restored to normal levels during the month postexposure. Although the total length of elastic fibers in lung parenchyma was found to be greater in oxygen-exposed than control pups from postnatal days 22 to 41, pressure-volume curves indicated that lungs of the oxygen-exposed pups tended to be more compliant than controls, suggesting that abnormal elastic fiber assembly might have been a contributing factor.