@article {1585, title = {Experiential contributions to social dominance in a rat model of fragile-X syndrome.}, journal = {Proc Biol Sci}, volume = {285}, year = {2018}, month = {2018 Jun 13}, abstract = {

Social withdrawal is one phenotypic feature of the monogenic neurodevelopmental disorder fragile-X. Using a {\textquoteright}knockout{\textquoteright} rat model of fragile-X, we examined whether deletion of the gene that causes this condition would affect the ability to form and express a social hierarchy as measured in a tube test. Male fragile-X {\textquoteright}knockout{\textquoteright} rats living together could successfully form a social dominance hierarchy, but were significantly subordinate to wild-type animals in mixed group cages. Over 10 days of repeated testing, the fragile-X mutant rats gradually showed greater variance and instability of rank during their tube-test encounters. This affected the outcome of future encounters with stranger animals from other cages, with the initial phenotype of wild-type dominance lost to a more complex picture that reflected, regardless of genotype, the prior experience of winning or losing. Our findings offer a novel insight into the complex dynamics of social interactions between laboratory living groups of fragile-X and wild-type rats. Even though this is a monogenic condition, experience has an impact upon future interactions with other animals. Gene/environment interactions should therefore be considered in the development of therapeutics.

}, issn = {1471-2954}, doi = {10.1098/rspb.2018.0294}, author = {Saxena, K and Webster, J and Hallas-Potts, A and Mackenzie, R and Spooner, P A and Thomson, D and Kind, P and Chatterji, S and Morris, R G M} }