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The thalamic reticular nucleus-lateral habenula circuit regulates depressive-like behaviors in chronic stress and chronic pain

Xin-Yue Wang, Xiang Xu, Rui Chen, Wen-Bin Jia, Pengfei Xu, Xiaoqing Liu, Xiaoqing Liu, Ying Zhang, Xinfeng Liu, Xinfeng Liu, Yan Zhang

2023Cell Reports43 citationsDOIOpen Access PDF

Abstract

Chronic stress and chronic pain are two major predisposing factors to trigger depression. Enhanced excitatory input to the lateral habenula (LHb) has been implicated in the pathophysiology of depression. However, the contribution of inhibitory transmission remains unclear. Here, we dissect an inhibitory projection from the sensory thalamic reticular nucleus (sTRN) to the LHb, which is activated by acute aversive stimuli. However, chronic restraint stress (CRS) weakens sTRN-LHb synaptic strength, and this synaptic attenuation is indispensable for CRS-induced LHb neural hyperactivity and depression onset. Moreover, artificially inhibiting the sTRN-LHb circuit induces depressive-like behaviors in healthy mice, while enhancing this circuit relieves depression induced by both chronic stress and chronic pain. Intriguingly, neither neuropathic pain nor comorbid mechanical hypersensitivity in chronic stress is affected by this pathway. Altogether, our study demonstrates an sTRN-LHb circuit in establishing and modulating depression, thus shedding light on potential therapeutic targets for preventing or managing depression.

Topics & Concepts

HabenulaNeuroscienceChronic stressChronic painNucleusThalamusReticular connective tissueThalamic reticular nucleusMedicineBiologyPsychologyAnatomyCentral nervous systemPain Mechanisms and TreatmentsPain Management and Placebo EffectPsychosomatic Disorders and Their Treatments
The thalamic reticular nucleus-lateral habenula circuit regulates depressive-like behaviors in chronic stress and chronic pain | Litcius