Estrogen and oxytocin involvement in social preference in male mice: a study using a novel long-term social preference paradigm with aromatase, estrogen receptor-α and estrogen receptor-β, oxytocin, and oxytocin receptor knockout male mice.

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Certain aspects of social behavior help animals make adaptive decisions during encounters with other animals. When mice choose to approach another conspecific, the motivation and preference behind the interaction is not well understood. Estrogen and oxytocin are known to influence a wide array of social behaviors, including social motivation and social preference. The present study investigated the effects of estrogen and oxytocin on social preference using aromatase (ArKO), estrogen receptor (ER) α (αERKO), ERβ (βERKO), oxytocin (OTKO), oxytocin receptor (OTRKO) knockout and their respective wild-type (WT) male mice. Mice were presented with gonadally-intact versus castrated male (IC), intact male versus ovariectomized female (IF), or intact male versus empty cage (IE) stimuli sets for 5 days. ArWT showed no preference for either stimuli in IC and IF and intact male preference in IE, but ArKO mice preferred a castrated male or an ovariectomized female, or had no preference for either stimulus in IC, IF and IE stimuli sets, respectively, suggesting reduced intact male preference. α and β WT mice preferred a castrated male, showed no preference, and preferred an intact male in IC, IF and IE, respectively. αERKO mice displayed similar modified social preference patterns as ArKO, whereas the social preference of βERKO mice remained similar to βWT. OTWT preferred a castrated male whereas OTKO, OTRWT and OTRKO mice failed to show any preference in IC and none showed preference for either stimuli in IF. Collectively, these findings suggest that estrogen regulates social preference in male mice and that impaired social preference in oxytocin-deficient mice may be due to severe deficits in social recognition.