AUTHOR=Abbasian Mahdi , Langlois Annick , Gibon Julien 

TITLE=Sexual Dimorphism in Balance and Coordination in p75NTRexonIII Knock-Out Mice

JOURNAL=Frontiers in Behavioral Neuroscience

VOLUME=16

YEAR=2022

URL=https://www.frontiersin.org/journals/behavioral-neuroscience/articles/10.3389/fnbeh.2022.842552

DOI=10.3389/fnbeh.2022.842552

ISSN=1662-5153

ABSTRACT=<p>The p75 neurotrophin receptor (p75NTR) is implicated in various biological functions during development and adulthood. Several animal models have been developed to identify the roles of p75NTR <italic>in vivo</italic> and <italic>in vitro</italic>. P75NTR<sup>ExonIII</sup> knock-out mice are widely used to study the neurotrophin receptor and its signaling pathways. Similar to other models of p75NTR knock-out (p75NTR<sup>Exon IV</sup> KO) or conditional knock-out (p75NTR<sup>fl/fl</sup>) mice, p75NTR<sup>ExonIII</sup> knock-out mice present severe abnormalities in walking, gait, balance and strength. The present study identifies a sexual dimorphism in the p75NTR<sup>ExonIII</sup> knock-out strain regarding balance and coordination. Using Kondziela’s inverted grid test, we observed that p75NTR<sup>ExonIII</sup> knock-out males performed poorly at the task, whereas p75NTR<sup>ExonIII</sup> knock-out females did not exhibit any defects. We also observed that female p75NTR<sup>ExonIII</sup> knock-out mice performed significantly better than male p75NTR<sup>ExonIII</sup> knock-out mice at the beam balance test. There were no differences in strength, skin innervation, or the number of ulcers on the toes between p75NTR<sup>ExonIII</sup> knock-out males and females. The literature regarding the role of p75NTR in behavior is controversial; our results suggest that studies investigating the role of p75NTR <italic>in vivo</italic> using p75NTR knock-out mice should systematically report data from males and females.</p>