Neural dynamics in the limbic system during male social behaviors

Abstract

SummarySexual and aggressive behaviors are two evolutionarily conserved social behaviors vital for an animal’s survival and reproductive success. While an increasing number of brain regions in the limbic system have been identified as functionally relevant for these two types of behaviors, an understanding of how social cues are represented across brain regions and how social behaviors are generated via this network activity remains elusive. To gain a holistic view of the neural responses during social behaviors, we utilized multi-fiber photometry to simultaneously record Ca2+signals of estrogen receptor alpha(Esr1)-expressing cells from 13 limbic brain regions in male mice during sexual and aggressive behaviors and compare the response magnitude and temporal patterns across regions. We find that conspecific sensory information, as well as social action initiation signals, are widely distributed in the limbic system and can be decoded from the network activity. Cross-region correlation analysis reveals striking increases in functional connectivity in the network during the action initiation phase of social behaviors whereas advanced copulation is accompanied by a “dissociated” network state. Based on the response patterns, we propose a mating-biased network (MBN) and an aggression-biased network (ABN) for mediating male sexual and aggressive behaviors, respectively.