The linking between oxidative stress and behavioral changes has been extensively investigated in various animal models. Oxidative stress plays an important role in the development of cognitive impairment in sepsis (Cassol-Jr et al., 2010). Antioxidant therapy with N-acetylcisteine and desferroxamine, as an additive to chloroquine,
prevented cognitive impairment, confirming the importance of oxidative stress in cerebral malaria-associated cognitive sequellae (Reis et al., 2010). Hyperactivity in the amphetamine model of mania in rats also has been shown to be linked to GSK1210151A clinical trial oxidative stress (Steckert et al., 2010). Moreover, oxidative stress is believed to contribute to cognitive and behavioral deficits after ischemia, anoxia, carbon monoxide poisoning, traumatic brain
injury, and in Alzheimer’s disease (Dal-Pizzol et al., 2010). Finally, recent studies (including our own) have shown direct involvement of oxidative stress with anxiety-like behavior and with locomotory/exploratory deficit in rodents (Salim et al., 2010, Hovatta et al., 2005, Gingrich, 2005, Masood et al., 2008, Souza et al., 2007 and Bouayed et al., 2007; de Oliveira et al., 2007). However, the linking between oxidative stress and behavioral changes found in this work remains to be elucidated by further investigation. In summary, our data suggest that vitamin A supplementation during pregnancy and nursing was able to modify striatal and hippocampal redox SCH772984 solubility dmso parameters and the subsequent behavior in rats. Notably, the doses administrated in this work were approximately equivalent to presumed doses safe for humans during pregnancy and breastfeeding. Unfortunately, it is still difficult to indicate the vitamin A metabolite responsible for the observed effects, given the vast number of vitamin A existing metabolites (Barua and Olson, 1986, Buck et al., 1991, Buck Sulfite dehydrogenase et al., 1993,
Derguini et al., 1995, Idres et al., 2002 and Napoli, 1999). Also, case reports of vitamin A toxicity have shown serum retinol concentrations within normal limits (Croquet et al., 2000, Ellis et al., 1986 and Mills and Tanumihardjo, 2006), indicating that serum retinol is not a good measure of vitamin A status during toxicity. In conclusion, we suggest some caution regarding the use of vitamin A during pregnancy and breastfeeding; especially, in vitamin supplementation or fortified foods. This oxidative stress is able to disturb several biological phenomena, including neuronal signaling and neurotransmission, which may induce several behavioral deficits. Additionally, exposure to stress early in life can induce an increased vulnerability to mood disorders later in life (Heim and Nemeroff, 2001 and Sanchez et al., 2001).