Aggression and arginine vasopressin immunoreactivity regulation by androgen receptor and estrogen receptor alpha.

In the following study, we asked which steroid receptors regulate aggression and arginine vasopressin (AVP) immunoreactivity (-ir) in several limbic regions. Using spontaneous mutant and knockout mice, we generated a novel cross of mice whose offspring lacked estrogen receptor alpha (ER alpha), androgen receptor (AR) or both ER alpha and AR. The wild-type (WT) males and females were compared with ER alpha knockout (ER alphaKO) male, mutated AR (Tfm) male and ER alphaKO/Tfm (double knockout; DKO) male littermates. Animals were gonadectomized and treated with 17beta-estradiol (E2) prior to resident-intruder aggression tests. WT and Tfm males showed aggression whereas WT females, ER alphaKO and DKO males did not. In the lateral septum, WT and Tfm male brains had significantly denser AVP-ir as compared with WT females and DKO males. ER alphaKO male brains were intermediate in the amount of AVP-ir present. In the medial amygdala, brains from all genotypes had equivalent AVP-ir, except DKO males, which had significantly less AVP-ir. Overall, the expression of aggressive behavior coincided with AVP-ir in WT, Tfm and DKO males. However, in ER alphaKO males and WT females, the amount of AVP-ir was not associated with resident-intruder aggression. In sum we have shown that E2 acts via ER alpha to regulate aggression in male mice. In contrast both ER alpha and AR contribute to AVP-ir in limbic brain regions.