Estrogen Reduces Iron-Mediated Brain Edema and Neuronal Death

Our previous studies found that 17-beta estradiol attenuates edema formation after intracerebral hemorrhage (ICH). As brain iron overload occurs after ICH and contributes to ICH-induced brain injury, the present study examined the effects of estrogen on iron-induced brain injury in vivo and in vitro. There were two sets of experiments in this study. In the first set, male Sprague-Dawley rats were pretreated with 17-beta estradiol or vehicle prior to an intracerebral injection of ferrous iron. Ferrous iron was injected into the right caudate and the rats were killed 24 h later for brain edema measurement. In the second set, primary cultured neurons were pretreated with different doses of 17-beta estradiol or vehicle for 24 h. The cells were then exposed to ferrous iron for 48 h when culture medium was collected for lactate dehydrogenase measurement. Neuronal death was also assessed by live/dead cell assay. Estrogen pretreatment reduced brain water content (p < 0.01) 24 h after iron injection. Estrogen also protected against iron-induced cell death in cultured neurons. Estrogen reduces iron-induced brain edema in vivo and neuronal death in vitro suggesting estrogen could be a potential therapeutic agent for ICH.