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Behavioural and dopaminergic signatures of resilience

Lindsay Willmore, Courtney Cameron, John Yang, Ilana B. Witten () and Annegret L. Falkner ()
Additional contact information
Lindsay Willmore: Princeton University
Courtney Cameron: Princeton University
John Yang: Princeton University
Ilana B. Witten: Princeton University
Annegret L. Falkner: Princeton University

Nature, 2022, vol. 611, issue 7934, 124-132

Abstract: Abstract Chronic stress can have lasting adverse consequences in some individuals, yet others are resilient to the same stressor1,2. Susceptible and resilient individuals exhibit differences in the intrinsic properties of mesolimbic dopamine (DA) neurons after the stressful experience is over3–8. However, the causal links between DA, behaviour during stress and individual differences in resilience are unknown. Here we recorded behaviour in mice simultaneously with DA neuron activity in projections to the nucleus accumbens (NAc) (which signals reward9–12) and the tail striatum (TS) (which signals threat13–16) during social defeat. Supervised and unsupervised behavioural quantification revealed that during stress, resilient and susceptible mice use different behavioural strategies and have distinct activity patterns in DA terminals in the NAc (but not the TS). Neurally, resilient mice have greater activity near the aggressor, including at the onset of fighting back. Conversely, susceptible mice have greater activity at the offset of attacks and onset of fleeing. We also performed optogenetic stimulation of NAc-projecting DA neurons in open loop (randomly timed) during defeat or timed to specific behaviours using real-time behavioural classification. Both open-loop and fighting-back-timed activation promoted resilience and reorganized behaviour during defeat towards resilience-associated patterns. Together, these data provide a link between DA neural activity, resilience and resilience-associated behaviour during the experience of stress.

Date: 2022
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Citations: View citations in EconPapers (2)

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DOI: 10.1038/s41586-022-05328-2

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