Neuroestradiol and neuronal development: Not an exclusive male tale anymore.

The brain synthesizes a variety of neurosteroids, including neuroestradiol. Inhibition of neuroestradiol synthesis results in alterations in basic neurodevelopmental processes, such as neurogenesis, neuroblast migration, neuritogenesis and synaptogenesis. Although the neurodevelopmental actions of neuroestradiol are exerted in both sexes, some of them are sex-specific, such as the well characterized effects of neuroestradiol derived from the metabolism of testicular testosterone during critical periods of male brain development. In addition, recent findings have shown sex-specific actions of neuroestradiol on neuroblast migration, neuritic growth and synaptogenesis in females. Among other factors, the epigenetic regulation exerted by X linked genes, such as Kdm6a/Utx, may determine sex-specific actions of neuroestradiol in the female brain. This review evidences the impact of neuroestradiol on brain formation in both sexes and highlights the interaction of neural steriodogenesis, hormones and sex chromosomes in sex-specific brain development.

Sex differences in glia reactivity after cortical brain injury.

Several brain disorders associated with neuroinflammation show sex differences in their incidence, onset, progression and/or outcome. The different regulation of the neuroinflammatory response in males and females could underlie these sex differences. In this study, we have explored whether reactive gliosis after a penetrating cortical injury exhibits sex differences. Males presented a higher density of Iba1 immunoreactive cells in the proximity of the wound (0-220 µm) than females. This sex difference was due to a higher number of Iba1 immunoreactive cells with nonreactive morphology. In addition microglia/macrophages in that region expressed arginase-1, marker of alternatively activated microglia, and the neuroprotective protein Neuroglobin, in a greater proportion in males than in females. No sex differences were found in the number of astrocytes around the lesion. However, the percentage of astrocytes expressing chemokine (C-C motif) ligand 2 (CCL2), involved in recruitment of immune cells and gliosis regulation, was higher in males. Males also presented a significantly higher density of neurons in the lesion edge than females. These findings indicate that male and female mice have different neuroinflammatory responses after a cortical stab wound injury and suggest that sex differences in reactive gliosis may contribute to sex differences in neuroinflammatory diseases. GLIA 2015;63:1966-1981.