Loss of Social/Non-social Context Discrimination by Movement Acceleration in the Valproate Model of Autism.

Nelva T Quezada,Sebastiana F Salas-Ortíz,Katherine P Morgado-Gallardo,Esteban E Aliaga,Jenny L Fiedler,Francisco A Peralta,Felipe I Aguayo,Catherine A Mac-Rae

doi:10.3389/fnbeh.2020.555610

Abstract

Autism spectrum disorder (ASD) is a neurodevelopmental alteration characterized by social/communicative deficits, repetitive/stereotyped movements, and restricted/obsessive interests. However, there is not much information about whether movement alterations in ASD comprise modifications at the basic kinematic level, such as trajectory and velocity, which may contribute to the higher level of processing that allows the perception and interpretation of actions performed by others, and hence, impact social interaction. In order to further explore possible motor alterations in ASD, we analyzed movement parameters in the Valproate (VPA) animal model of autism. We found that VPA-treated rats displayed greater movement acceleration, reduced distance between stops, spent more time in the corner of the open-field arena, and executed a number of particular behaviors; for example, supported rearing and circling, with no major changes in distance and velocity. However, in the social interaction test, we found other alterations in the movement parameters. In addition to increased acceleration, VPA-rats displayed reduced velocity, increased stops, reduced distance/stop and lost the social/non-social area discrimination that is characteristic of control rats in acceleration and stops variables. Hence, even if prenatal VPA-treatment could have a minor effect in motor variables in a non-social context, it has a crucial effect in the capacity of the animals to adjust their kinematic variables when social/non-social context alternation is required.

Highlights

Autism spectrum disorder (ASD) is a multifactorial group of neurodevelopmental alterations of unknown etiology, in which genetic and environmental factors are involved (De Rubeis et al, 2014; Modabbernia et al, 2017)
In order to explore possible motor alterations in the VPA-model related to independent free exploration or social interaction, we evaluated kinematic parameters in two habitually used behavioral tests for laboratory rats: the open field test (OFT) and the three-chamber social test (3C-ST)
We have studied basic kinematic parameters in the juvenile rat VPA-model of autism using two behavioral tests (OFT and 3CST), which represent two different contexts

Summary

Introduction

Autism spectrum disorder (ASD) is a multifactorial group of neurodevelopmental alterations of unknown etiology, in which genetic and environmental factors are involved (De Rubeis et al, 2014; Modabbernia et al, 2017) This condition elicits three principal behavioral alterations: (i) social and communicative deficits, (ii) repetitive/stereotyped movements, and (iii) restricted/obsessive. The wide range of motor impairments in ASD, linked to its persistent nature (Van Waelvelde et al, 2010), led to the proposal that motor dysfunction is rather a core feature of ASD, and not just a simple symptom (Rinehart and McGinley, 2010) In agreement with this hypothesis, movement execution in ASD displays atypical kinematics, which is well correlated with the ADOS score (Cook et al, 2013)

Objectives

Methods

Results

Conclusion