Abstract:
Background: Two different mitochondrial fractions (MFs) have been character-
ized in the human placenta: the “light” and “heavy” fractions (LMF and HMF).
Although these organelles are the main source of reactive oxygen species, an
imbalance between their production and the rate of detoxification represents a seri-
ous threat to mitochondrial homeostasis and, in the case of the placenta, also to the
fetus. The aim of this study was to evaluate the antioxidant capacity and suscepti-
bility to oxidative stress in both types of MFs.
Methods: Human MFs were isolated from healthy donors (n = 11) and either
incubated or not with H2O2. Catalase (CAT) activity, and reduced glutathione
(GSH), lipid peroxidation (LP), and protein carbonylation (PC) levels were
determined.
Results: H2O2 treatment increased LP and PC levels and decreased CAT activity.
GSH levels were similar in control and treated MFs.
Conclusion: H2O2 caused oxidative damage in both LMF and HMF and the
antioxidant system measured in these two MFs responded similarly. To the best of
our knowledge, this is the first partial description of the antioxidant defense in pla-
cental HMF and LMF performed in a cell-free assay. The small number of antioxi-
dant system parameters measured did not allow detecting differences between
HMF and LMF.
