Abstract
Animals can cope with isolated stressful situations without enduring long‐term consequences. However, when exposure to stressors becomes recurrent, behavioural symptoms of anxiety and depression can emerge. Yet, the neuronal mechanisms governing responsivity to isolated stressor remain elusive. Here, we investigate synaptic adaptations following mild stress in the lateral habenula (LHb), a structure engaged in aversion encoding and dysfunctional in depression. We describe that neuronal depolarization in the LHb drives long‐term depression of inhibitory, but not excitatory, synaptic transmission (GABA LTD). This plasticity requires nitric oxide and presynaptic GABAB receptors, leading to a decrease in probability of GABA release. Mild stressors such as brief social isolation, or exposure to novel environment in the company of littermates, do not alter GABA LTD. In contrast, GABA LTD is absent after mice experience a novel environment in social isolation. Altogether, our results suggest that LHb GABAergic plasticity is sensitive to stress accumulation, which could represent a threshold mechanism for long‐term alterations of LHb function.
Highlights
Stress is the physiological reaction to a situation perceived as demanding or threatening
We describe a form of gamma-aminobutyric acid (GABA) long-term depression (LTD) that is induced postsynaptically and expressed presynaptically, via nitric oxide (NO) and presynaptic GABAB receptors
We found that depolarization of lateral habenula (LHb) neurons led to long-term decrease in probability of release at GABAergic terminals
Summary
Stress is the physiological reaction to a situation perceived as demanding or threatening. Protracted foot-shock experience modifies excitatory glutamatergic tone (Li et al, 2011; Nuno-Perez et al, 2021) and reduces GABAergic function onto LHb neurons (Shabel et al, 2014) These alterations contribute causally to depressive-like symptoms. Chronic exposure to mild stressors is necessary to drive the emergence of aversive states and adaptations in the LHb in a fraction of susceptible animals, resembling depression in humans (Cerniauskas et al, 2019; Willner, 2017). These results suggest that LHb neurons can monitor cumulative exposure to mild stressors, which may or may not culminate in depression-related alterations. Our results highlight that GABA plasticity is a phenomenon sensitive to physiological stress thresholds and suggest a role of the LHb in stress response before the emergence of pathological traits
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