Tibolone, a synthetic steroid used for the treatment of climacteric symptoms, displays sex-specific protective actions in experimental models of brain diseases. Previous in vitro findings suggest that tibolone reduces oxidative stress and neuroinflammation through the regulation of DNA methylation and the activation of estrogen receptors (ERs) α and β. In this study, we assessed whether tibolone regulates the expression of genes coding for DNA methylation and demethylation enzymes and ERs in the injured cerebral cortex of animals suffering a traumatic brain injury. The four-core genotype mouse model was used to determine whether the effect of tibolone on gene regulation was influenced by gonads or by cell-autonomous actions of sex chromosomes. Tibolone treatment resulted in sex-specific modification in the expression of genes coding for DNA methyl transferases (Dnmt) 3a, and 3b, for growth arrest and DNA-damage-inducible proteins (Gadd) 45β and 45γ, and for ERα and ERβ. In contrast, tibolone did not affect the expression of genes coding for Dnmt1, Gadd45α, and ten-eleven translocation methylcytosine dioxygenases 1–3. The sex-specific effect of tibolone on Dnmt3a expression depended on gonadal sex. In contrast, the presence or absence of the Y chromosome determined the effect of tibolone on Dnmt3b, Gadd45β, Gadd45γ, ERα and ERβ expression. These findings suggest that tibolone exerts a sex-specific regulation of DNA methylation and ER expression in the injured cerebral cortex that is determined by a combination of gonadal effects and cell-autonomous actions of sex chromosome genes.
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