Studies of mitochondria in oxidative embryotoxicity.

Abstract

While the limb bud and brain of the rat develop abnormally in response to transient uteroplacental hypoperfusion during late gestation, the heart appears to be protected. These malformations have been associated with the generation of reactive oxygen species (ROS). Studies were designed to examine superoxide generation by mitochondrial electron transport particles (ETP) from adult and conceptal tissues and to investigate characteristics that could be responsible for heightened concentrations of ROS in sensitive tissues. Parameters investigated included NADH oxidase and cytochrome c oxidase activities, cytochrome content, and superoxide dismutase activity. NADH oxidase activities were significantly lower in sensitive tissues that also developed the highest concentrations of superoxide. Because ETP from adult CNS also had low NADH oxidase activity but did not show increased concentrations of superoxide, inhibition of electron transport did not adequately account for increased ROS concentrations. The reduced NADH oxidase activity of sensitive tissues could not be caused by inhibition at the cytochrome c oxidase region since this latter activity equaled or exceeded the former in all instances. No significant differences were found in the cytochrome contents of different tissues. There was significantly less superoxide dismutase activity in homogenates prepared from either of the two sensitive conceptual tissues compared with those from insensitive conceptual or adult tissues. These studies confirm the presence of heightened concentrations of superoxide anion radical in ETP from teratogenically sensitive tissues and suggest that these concentrations may result primarily from decreased activity of superoxide dismutase(s) in those tissues. Superoxide anion radical could therefore be available to participate in the generation of the more toxic oxidant species such as the hydroxyl radical.