The Switchmaze: an open-design device for measuring motivation and drive switching in mice

The Switchmaze: an open-design device for measuring motivation and drive switching in mice

Animals need to switch between motivated behaviours, like drinking, feeding or social interaction, to meet environmental availability, internal needs and more complex ethological needs such as hiding future actions from competitors. Inflexible, repetitive behaviours are a hallmark of many neuropsych...

Full description

Saved in:
Bibliographic Details
Main Authors: Hartmann, Clara, Mahajan, Ambika, Borges, Vinicius, Razenberg, Lotte, Thönnes, Yves, Karnani, Mahesh Miikael
Format: Article
Language:English
Published: Peer Community In 2024-04-01
Series:Peer Community Journal
Subjects:
innate behavior
mouse behavior
open-design
automated behavior
behavioral switching
motivation
feeding
drinking
prefrontal cortex
hypothalamus
Online Access:https://peercommunityjournal.org/articles/10.24072/pcjournal.416/
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Animals need to switch between motivated behaviours, like drinking, feeding or social interaction, to meet environmental availability, internal needs and more complex ethological needs such as hiding future actions from competitors. Inflexible, repetitive behaviours are a hallmark of many neuropsychiatric disorders. However, how the brain orchestrates switching between the neural mechanisms controlling motivated behaviours, or drives, is unknown. This is partly due to a lack of appropriate measurement systems. We designed an automated extended home-cage, the Switchmaze, using open-source hardware and software. In this study, we use it to establish a behavioural assay of motivational switching in mice. Individual animals access the Switchmaze from the home-cage and choose between entering one of two chambers containing different goal objects or returning to the home-cage. Motivational switching is measured as a ratio of switching between chambers and continuous exploitation of one chamber. Behavioural transition analysis is used to further dissect altered motivational switching. As proof-of-concept, we show environmental manipulation, and targeted brain manipulation experiments which altered motivational switching without effect on traditional behavioural parameters. Chemogenetic inhibition of the prefrontal-hypothalamic axis increased the rate of motivation switching, highlighting the involvement of this pathway in drive switching. This work demonstrates the utility of open-design in understanding animal behaviour and its neural correlates.
ISSN:2804-3871

Similar Items