Abstract

Social behaviors are foundational to society and quality of life while social behavior extremes are core symptoms in a variety of psychopathologies and developmental disabilities. Oxytocin (OXT) is a neuroactive hormone that regulates social behaviors through its receptor (OXTR), with all previously identified social behavior effects attributed to the central nervous system, which has developmental origins in the neural tube. However, OXTR are also present in neural crest-derived tissue including sensory ganglia of the peripheral nervous system. Avil encodes for the actin-binding protein ADVILLIN, is expressed in neural crest-derived cells, and was therefore used as a target in this study to knock out OXTR expression in neural-crest derived cells. Here, we tested if OXTRs specifically expressed in Avil positive neural crest-derived cells are necessary for species-typical adult social behaviors using a Cre-LoxP strategy. Genetically modified male and female mice lacking OXTR in Avil expressing cells (OXTRAvil KO) were tested for sociability and preference for social novelty. Males were also tested for resident intruder aggression. OXTRAvil KO males and females had reduced sociability compared to OXTRAvil WT controls. Additionally, OXTRAvil KO males had increased aggressive behaviors compared to controls. These data indicate that OXTRs in cells of neural crest origin are important regulators of typical social behaviors in C57BL/6J adult male and female mice and point to needed directions of future research.

Highlights

  • A diverse body of evidence supports a role for the oxytocin (OXT) and the OXT receptor (OXTR) in modulating the brain and social behaviors across species [1, 2]

  • Studies in mice testing the necessity of OXTR in regulating social behavior have compared the social behaviors of congenital OXTR knock-out (OXTR KO) mice to wild-type (OXTR WT) mice [3,4,5,6,7]

  • Sociability, social novelty, and resident intruder (RIT) aggression tests have been used to investigate the social phenotype of OXTR KO mice while interacting with samesex conspecifics

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Summary

Introduction

A diverse body of evidence supports a role for the oxytocin (OXT) and the OXT receptor (OXTR) in modulating the brain and social behaviors across species [1, 2]. We tested the consequences of OXTR loss from Avil-expressing cells, which are neural-crest derived cells primarily located in the PNS, on adult social behavior in male and female C57BL/6J mice.

Results
Conclusion

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