Abstract
Social behaviours characterize cooperative, mutualistic, aggressive or parental interactions that occur among conspecifics. Although the Ventral Tegmental Area (VTA) has been identified as a key substrate for social behaviours, the input and output pathways dedicated to specific aspects of conspecific interaction remain understudied. Here, in male mice, we investigated the activity and function of two distinct VTA inputs from superior colliculus (SC-VTA) and medial prefrontal cortex (mPFC-VTA). We observed that SC-VTA neurons display social interaction anticipatory calcium activity, which correlates with orienting responses towards an unfamiliar conspecific. In contrast, mPFC-VTA neuron population activity increases after initiation of the social contact. While protracted phasic stimulation of SC-VTA pathway promotes head/body movements and decreases social interaction, inhibition of this pathway increases social interaction. Here, we found that SC afferents mainly target a subpopulation of dorsolateral striatum (DLS)-projecting VTA dopamine (DA) neurons (VTADA-DLS). While, VTADA-DLS pathway stimulation decreases social interaction, VTADA-Nucleus Accumbens stimulation promotes it. Altogether, these data support a model by which at least two largely anatomically distinct VTA sub-circuits oppositely control distinct aspects of social behaviour.
Highlights
IntroductionMutualistic, aggressive or parental interactions that occur among conspecifics
Social behaviours characterize cooperative, mutualistic, aggressive or parental interactions that occur among conspecifics
To explore the functional connectivity of Superior Colliculus (SC)-Ventral Tegmental Area (VTA) projections, we injected an AAV5-hSyn-ChR2-expressing a yellow fluorescent protein (eYFP) in SC and performed whole-cell patch-clamp recordings
Summary
Mutualistic, aggressive or parental interactions that occur among conspecifics. The Ventral Tegmental Area (VTA) has been identified as a key substrate for social behaviours, the input and output pathways dedicated to specific aspects of conspecific interaction remain understudied. MPFC-VTA neuron population activity increases after initiation of the social contact. VTADA-DLS pathway stimulation decreases social interaction, VTADANucleus Accumbens stimulation promotes it These data support a model by which at least two largely anatomically distinct VTA sub-circuits oppositely control distinct aspects of social behaviour. When exploring novel social settings, individuals constantly integrate external cues and internal states to orient towards conspecifics. The neural circuits that control orienting responses towards conspecific and their role in social behavior remain unknown. Whether SC has a pivotal role in conspecific interaction by conveying information to VTA neurons during social orienting remains unknown
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