Hope for the best or prepare for the worst? Towards a spatial cognitive bias test for mice.

Vanessa Kloke,Klaus-Peter Lesch,Julian Möllers,Carina Bodden,Hanna Ruhmann,Lars Lewejohann,Norbert Sachser,Rebecca S Schreiber,Sylvia Kaiser

doi:10.1371/journal.pone.0105431

Vanessa Kloke, Klaus-Peter Lesch + Show 7 more

Open Access

https://doi.org/10.1371/journal.pone.0105431

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Abstract

Cognitive bias, the altered information processing resulting from the background emotional state of an individual, has been suggested as a promising new indicator of animal emotion. Comparable to anxious or depressed humans, animals in a putatively negative emotional state are more likely to judge an ambiguous stimulus as if it predicts a negative event, than those in positive states. The present study aimed to establish a cognitive bias test for mice based on a spatial judgment task and to apply it in a pilot study to serotonin transporter (5-HTT) knockout mice, a well-established mouse model for the study of anxiety- and depression-related behavior. In a first step, we validated that our setup can assess different expectations about the outcome of an ambiguous stimulus: mice having learned to expect something positive within a maze differed significantly in their behavior towards an unfamiliar location than animals having learned to expect something negative. In a second step, the use of spatial location as a discriminatory stimulus was confirmed by showing that mice interpret an ambiguous stimulus depending on its spatial location, with a position exactly midway between a positive and a negative reference point provoking the highest level of ambiguity. Finally, the anxiety- and depression-like phenotype of the 5-HTT knockout mouse model manifested - comparable to human conditions - in a trend for a negatively distorted interpretation of ambiguous information, albeit this effect was not statistically significant. The results suggest that the present cognitive bias test provides a useful basis to study the emotional state in mice, which may not only increase the translational value of animal models in the study of human affective disorders, but which is also a central objective of animal welfare research.

Highlights

While cognitive factors can be of fundamental importance in determining emotional experiences, emotional information can selectively influence cognitive processes, including attention, memory, and judgment [1,2,3]
If cognitive biases can be assessed in mice, this may fundamentally increase the translational value of many mouse models and may help to extend and refine the understanding of human emotional disorders [21]
Data were averaged for each mouse and day and analyzed by means of repeated measures (RM) analysis of variance (ANOVA) with ‘training day’ as withinsubject factor and ‘treatment’ as between-subject factor

Summary

Introduction

While cognitive factors can be of fundamental importance in determining emotional experiences, emotional information can selectively influence cognitive processes, including attention, memory, and judgment [1,2,3]. People in negative affective states show enhanced attention to threatening stimuli, retrieve negative memories, and make negative judgments about future events or ambiguous stimuli more than people in positive affective states [1,4,5,6,7,8,9]. Such emotion-mediated cognitive biases are assumed to play an important role in the development, maintenance, and recurrence of depression and anxiety disorders [10,11,12,13]. Since the task requires stable odor discrimination, which one of the two tested mouse strains in the study failed to exhibit, further investigations are still needed

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