dc.description.abstract | While foraging, marine mammals undertake repetitive diving bouts. When the
animal surfaces, reperfusion makes oxygen readily available for the electron
transport chain, which leads to increased production of reactive oxygen species
and risk of oxidative damage. In blood and several tissues, such as heart, lung,
muscle and kidney, marine mammals generally exhibit an elevated antioxidant
defence. However, the brain, whose functional integrity is critical to survival, has
received little attention. We previously observed an enhanced expression of
several antioxidant genes in cortical neurons of hooded seals (Cystophora
cristata). Here, we studied antioxidant gene expression and enzymatic
activity in the visual cortex, cerebellum and hippocampus of harp seals
(Pagophilus groenlandicus) and hooded seals. Moreover, we tested several
genes for positive selection. We found that antioxidants in the first line of
defence, such as superoxide dismutase (SOD), glutathione peroxidase (GPX)
and glutathione (GSH) were constitutively enhanced in the seal brain compared
to mice (Mus musculus), whereas the glutaredoxin and thioredoxin systems
were not. Possibly, the activity of the latter systems is stress-induced rather than
constitutively elevated. Further, some, but not all members, of the glutathiones-transferase (GST) family appear more highly expressed. We found no
signatures of positive selection, indicating that sequence and function of the
studied antioxidants are conserved in pinnipeds. | en_US |