The role of GABAergic inhibitory interneurons during visually-guided decision-making

The brain is continuously bombarded with visual input but has limited processing capacity. Learning to selectively process visual features relevant for behaviour is therefore crucial for optimal decision-making and thought to rely on activity of GABAergic inhibitory interneurons. Altered inhibition is linked to perceptual and learning impairments and associated with neurodevelopmental disorders including schizophrenia and autism.

The aim of this project is to understand the precise role of different types of GABAergic inhibitory interneurons during visually-guided learning and decision-making. Mice have a similarly organized visual cortex and show complex decision-making behaviours. Mouse brain circuits can be measured and manipulated during behaviour in ways not possible in humans.

Our approach is to train mice, including pharmacological and genetic mouse models of neurodevelopmental disorders and healthy controls, in visual decision-making tasks. We measure activity in visual cortex in specific cell types using 2-photon imaging and electrophysiology and use optogenetics to activate or inactivate activity of specific interneuron cell types. We will also apply two new innovative methods to optically measure the inhibitory neurotransmitter GABA (developed in the Looger lab, UCSD) and to locally pharmacologically manipulate GABA levels in the brain (collaboration with Malliaras and Proctor labs, Dept of Engineering, Cambridge) during visual learning and decision-making.

The PhD project is associated with a Wellcome Trust funded Collaborative programme with a cross-disciplinary international research team to investigate the role of GABAergic inhibition in both mice and humans at different scales, from local circuits to global brain networks.

Lab website: https://www.pdn.cam.ac.uk/svl
Contact: Jasper Poort jp816@cam.ac.uk