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Distinct nucleus accumbens neural pathways underlie separate behavioral features of chronic pain and comorbid depression
Di Liu, Fang-Xia Xu, Zhuang Yu, Xiao-Jing Huang, Ya-Bing Zhu, Li-Juan Wang, Chen-Wei Wu, Xu Zhang, Jun-Li Cao, Jinbao Li
Di Liu, Fang-Xia Xu, Zhuang Yu, Xiao-Jing Huang, Ya-Bing Zhu, Li-Juan Wang, Chen-Wei Wu, Xu Zhang, Jun-Li Cao, Jinbao Li
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Research Article Neuroscience

Distinct nucleus accumbens neural pathways underlie separate behavioral features of chronic pain and comorbid depression

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Abstract

The comorbidity of depressive symptoms in chronic pain has been recognized as a key health issue. However, whether discrete circuits underlie behavioral subsets of chronic pain and comorbid depression has not been addressed. Here, we report that dopamine 2 (D2) receptor–expressing medium spiny neurons in the nucleus accumbens medial shell (mNAcSh) mediate pain hypersensitivity and depression-like behaviors in mice after nerve injury. Two separate neural pathways mediate different symptoms. The glutamatergic inputs from the anteromedial thalamic nucleus to mNAcSh D2 neurons that innervated orexin-expressing neurons in the lateral hypothalamic area contributed to pain regulation. In contrast, the lateral septum GABAergic inputs to mNAcSh D2 neurons that disinhibit the ventral pallidum glutamatergic neurons mediated depression-like behaviors. These findings indicate the functional significance of heterogeneous mNAcSh D2 neurons and their neural pathways, providing a perspective for symptom-specific treatments of chronic pain and comorbid depression.

Authors

Di Liu, Fang-Xia Xu, Zhuang Yu, Xiao-Jing Huang, Ya-Bing Zhu, Li-Juan Wang, Chen-Wei Wu, Xu Zhang, Jun-Li Cao, Jinbao Li

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Figure 1

Activation of mNAcSh D2 neurons in neuropathic pain mice comorbid with depression.

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Activation of mNAcSh D2 neurons in neuropathic pain mice comorbid with d...
(A) Schematic of spared nerve injury. (B and C) Mechanical (B) and thermal (C) pain thresholds in sham and SNI mice (n = 6–8 mice/group); interaction F(6, 72) = 6.873 (B); F(6, 72) = 9.344 (C). BL, baseline. (D–F) Sucrose preference (D), immobility time in TST (E), and FST (F) in mice (n = 6–8 mice/group); F(1, 12) = 5.435 (D); F(1, 12) = 21.21 (E); F(1, 12) = 5.355 (F). (G) Injection schematic. (H and I) Mechanical (H) and thermal (I) pain thresholds (n = 6–8 mice/group); F(6, 72) = 3.226 (H); F(6, 72) = 8.248 (I). (J–L) Sucrose preference (J), immobility time in TST (K), and FST (L) in mice (n = 6–8 mice/group); F(1, 12) = 8.868 (J); F(1, 12) = 9.891 (K); F(1, 12) = 5.157 (L). (M) D2 mRNA expression in GCaMP6s-positive neurons; n = 8. Scale bars: 200 μm (left), 20 μm (right). aca, anterior commissure, anterior part. (N and Q) Schematic showing photometry. (O, P, and R) Heat maps, average, and quantification of ΔF/F illustrating Ca2+ signals upon von Frey (O), thermal stimuli (P), and tail suspension (R) (n = 6 mice/group). (S) Schematic showing electrophysiological recording. (T and V) The spikes in response to currents injection in D1 (T) and D2 (V) neurons (T, n = 10–11 neurons/group, F(13, 247) = 0.1533; and V, n = 11–12 neurons/group, F(1,22) = 12.98). (U and W) RMP of D1 (U) and D2 (W) neurons (U, n = 10–11; W, n = 11–12). *P < 0.05, **P < 0.01, ***P < 0.001 by 2-way repeated measures ANOVA with Bonferroni’s multiple comparisons test (B–F) and (H–L) or 2-tailed t test (O, P, R, U, and W). Data are represented as mean ± SEM.

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ISSN: 0021-9738 (print), 1558-8238 (online)

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