Litcius/Paper detail

Distinct Thalamo‐Subcortical Circuits Underlie Painful Behavior and Depression‐Like Behavior Following Nerve Injury

Jie Deng, Li Chen, Cuicui Liu, Meng Liu, Guoqing Guo, Jia‐You Wei, Jian‐Bo Zhang, Jian‐Bo Zhang, Hai‐Ting Fan, Zi‐Kun Zheng, Pu Yan, X. Zhang, Feng Zhou, Sui‐Xiang Huang, Jifeng Zhang, Jifeng Zhang, Ting Xu, Jingdun Xie, Wen‐Jun Xin

2024Advanced Science15 citationsDOIOpen Access PDF

Abstract

Abstract Clinically, chronic pain and depression often coexist in multiple diseases and reciprocally reinforce each other, which greatly escalates the difficulty of treatment. The neural circuit mechanism underlying the chronic pain/depression comorbidity remains unclear. The present study reports that two distinct subregions in the paraventricular thalamus (PVT) play different roles in this pathological process. In the first subregion PVT posterior (PVP), glutamatergic neurons (PVP Glu ) send signals to GABAergic neurons (VLPAG GABA ) in the ventrolateral periaqueductal gray (VLPAG), which mediates painful behavior in comorbidity. Meanwhile, in another subregion PVT anterior (PVA), glutamatergic neurons (PVA Glu ) send signals to the nucleus accumbens D1‐positive neurons and D2‐positive neurons (NAc D1→D2 ), which is involved in depression‐like behavior in comorbidity. This study demonstrates that the distinct thalamo‐subcortical circuits PVP Glu →VLPAG GABA and PVA Glu →NAc D1→D2 mediated painful behavior and depression‐like behavior following spared nerve injury (SNI), respectively, which provides the circuit‐based potential targets for preventing and treating comorbidity.

Topics & Concepts

GlutamatergicNeuroscienceNucleus accumbensComorbidityThalamusDepression (economics)SNiGABAergicMedicineChronic painNerve injuryAddictionPsychologyGlutamate receptorPsychiatryBiologyInternal medicineCentral nervous systemInhibitory postsynaptic potentialReceptorMacroeconomicsBiochemistryHydrolysisAcid hydrolysisEconomicsPain Mechanisms and TreatmentsStress Responses and CortisolHeart Rate Variability and Autonomic Control