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Cerebellar modulation of memory encoding in the periaqueductal grey and fear behaviour

Lawrenson, C, Paci, E ORCID: 0000-0002-6202-2825, Pickford, J, Drake, R.A.R, Lumb, B.M and Apps, R (2022) 'Cerebellar modulation of memory encoding in the periaqueductal grey and fear behaviour.' eLife, 11. e76278.

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Official URL: https://doi.org/10.7554/eLife.76278

Abstract

Anxiety disorders are a cluster of mental health conditions characterised by persistent and excessive amounts of fear and worry. They affect millions of people worldwide, but treatments can sometimes be ineffective and have unwanted side effects. Understanding which brain regions are involved in fear and anxiety-related behaviours, and how those areas are connected, is the first step towards designing more effective treatments. A region known as the periaqueductal grey (or PAG) sits at the centre of the brain’s fear and anxiety network, regulating pain, encoding fear memories and responding to threats and stressors. It also controls survival behaviours such as the ‘freeze’ response, when an animal is frightened. A more recent addition to the fear and anxiety network is the cerebellum, which sits at the base of the brain. Two-way connections between this region and the PAG have been well described, but how the cerebellum might influence fear and anxiety-related behaviours remains unclear. To explore this role, Lawrenson, Paci et al. investigated whether the cerebellum modulates brain activity within the PAG and if so, how this relates to fear behaviours. Rats had electrodes implanted in their brains to record the activity of nerve cells within the PAG. A common fear-conditioning task was then used to elicit ‘freeze’ responses: a sound was paired with mild foot shocks until the animals learned to fear the auditory signal. In the rats, a subset of neurons within the PAG responded to the tone, consistent with those cells encoding a fear memory. But when a drug blocked the cerebellum’s output during fear conditioning, the timing of the PAG response was less precise and the rats’ freeze response lasted longer. Lawrenson, Paci et al. concluded that the cerebellum, through its interactions with the brain’s fear and anxiety network, might be responsible for coordinating the most appropriate behavioural response to fear, and how long ‘freezing’ lasts. In summary, these findings show that the cerebellum is a part of the brain’s survival network which regulates fear-memory processes. It raises the possibility that disruption of the cerebellum might underlie anxiety and other fear-related disorders, thereby providing a new target for future therapies.

Item Type: Article
Keywords: neuroscience, cerebellum, PAG, survival circuits, fear, timing
Divisions: School of Sciences
Date Deposited: 10 Mar 2025 18:29
Last Modified: 10 Mar 2025 18:29
ISSN: 2050-084X
URI / Page ID: https://researchspace.bathspa.ac.uk/id/eprint/16937
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