Hardwired to attack: Transcriptionally defined amygdala subpopulations play distinct roles in innate social behaviors

Author:

Lischinsky Julieta E.ORCID,Yin LupingORCID,Shi Chenxi,Prakash NandkishoreORCID,Burke Jared,Shekaran Govind,Grba Maria,Corbin Joshua G.ORCID,Lin DayuORCID

Abstract

AbstractSocial behaviors are innate and supported by dedicated neural circuits, but it remains unclear whether these circuits are developmentally hardwired or established through social experience. Here, we revealed distinct response patterns and functions in social behavior of medial amygdala (MeA) cells originating from two embryonically parcellated developmental lineages. MeA cells in male mice that express the transcription factor Foxp2 (MeAFoxp2) are specialized for processing male conspecific cues even before puberty and are essential for adult inter-male aggression. In contrast, MeA cells derived from theDbx1-lineage (MeADbx1) respond broadly to social cues and are non-essential for male aggression. Furthermore, MeAFoxp2and MeADbx1cells show differential anatomical and functional connectivity. Altogether, our results support a developmentally hardwired aggression circuit at the level of the MeA and we propose a lineage-based circuit organization by which a cell’s embryonic transcription factor profile determines its social information representation and behavior relevance during adulthood.HighlightsMeAFoxp2cells in male mice show highly specific responses to male conspecific cues and during attack while MeADbx1cells are broadly tuned to social cues.The male-specific response of MeAFoxp2cells is present in naïve adult males and adult social experience refines the response by increasing its trial-to-trial reliability and temporal precision.MeAFoxp2cells show biased response to males even before puberty.Activation of MeAFoxp2, but not MeADbx1, cells promote inter-male aggression in naïve male mice.Inactivation of MeAFoxp2, but not MeADbx1, cells suppresses inter-male aggression.MeAFoxp2and MeADbx1cells show differential connectivity at both the input and output levels.

Publisher

Cold Spring Harbor Laboratory

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