H. Mover et A. Ar, ANTIOXIDANT ENZYMATIC-ACTIVITY IN EMBRYOS AND PLACENTA OF RATS CHRONICALLY EXPOSED TO HYPOXIA AND HYPEROXIA, Comparative biochemistry and physiology. Part C, Pharmacology toxicology & endocrinology, 117(2), 1997, pp. 151-157
Embryos exhibit lower enzymatic antioxidant activity (EAOA) than adult
s, in accordance with the low in utero oxygen concentration. We asked
whether external oxygen stress can modulate embryonic EAOA and what th
e placenta role is as a mediator between embryos and external milieu.
Pregnant rats were exposed to hyperoxia (90% O-2) or hypoxia (10% O-2)
during 8 days in the second or third trimester. Activities of catalas
e (CAT), superoxide dismutase and glutathione peroxidase (GPx) were me
asured in the term embryonic brain, lung and heart and liver; 2-week-o
ld whole embryonic sac and placenta. In term ''hyperoxic'' embryos, on
ly CAT increased by 30% in heart and lungs and liver. In the placenta,
GPx increased by 31%. In term ''hypoxic'' embryos, only CAT activity
decreased by 64%, 25% and 29% in brain, liver and placenta. In 2-week-
old ''hyperoxic'' embryos CAT activity increased by 85% and GPx by 45%
in the embryonic sac. In the placenta, GPx increased by 55%. The limi
ted embryonic EAOA response is possible due to maternal physiological
buffering of oxygen supply. Placental EAOA is similar to other embryon
ic organs. It may protect the placenta proper, thus ensuring normal em
bryonic development. (C) 1997 Elsevier Science Inc.