Distinct glutamatergic projections of the posteroventral medial amygdala play different roles in arousal and anxiety
Ying Li, Yuchen Deng, Yifei Zhang, Dan Xu, Xuefen Zhang, Yue Li, Yidan Li, Ming Chen, Yuxin Wang, Jiyan Zhang, Like Wang, Yufeng Cang, Peng Cao, Linlin Bi, Haibo Xu
Ying Li, Yuchen Deng, Yifei Zhang, Dan Xu, Xuefen Zhang, Yue Li, Yidan Li, Ming Chen, Yuxin Wang, Jiyan Zhang, Like Wang, Yufeng Cang, Peng Cao, Linlin Bi, Haibo Xu
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Research Article Neuroscience

Distinct glutamatergic projections of the posteroventral medial amygdala play different roles in arousal and anxiety

Abstract

Sleep disturbance usually accompanies anxiety disorders and exacerbates their incidence rates. The precise circuit mechanisms remain poorly understood. Here, we found that glutamatergic neurons in the posteroventral medial amygdala (MePVGlu neurons) are involved in arousal and anxiety-like behaviors. Excitation of MePVGlu neurons not only promoted wakefulness but also increased anxiety-like behaviors. Different projections of MePVGlu neurons played various roles in regulating anxiety-like behaviors and sleep-wakefulness. MePVGlu neurons promoted wakefulness through the MePVGlu/posteromedial cortical amygdaloid area (PMCo) pathway and the MePVGlu/bed nucleus of the stria terminals (BNST) pathway. In contrast, MePVGlu neurons increased anxiety-like behaviors through the MePVGlu/ventromedial hypothalamus (VMH) pathway. Chronic sleep disturbance increased anxiety levels and reduced reparative sleep, accompanied by the enhanced excitability of MePVGlu/PMCo and MePVGlu/VMH circuits but suppressed responses of glutamatergic neurons in the BNST. Inhibition of the MePVGlu neurons could rescue chronic sleep deprivation–induced phenotypes. Our findings provide important circuit mechanisms for chronic sleep disturbance–induced hyperarousal response and obsessive anxiety-like behavior and are expected to provide a promising strategy for treating sleep-related psychiatric disorders and insomnia.

Authors

Ying Li, Yuchen Deng, Yifei Zhang, Dan Xu, Xuefen Zhang, Yue Li, Yidan Li, Ming Chen, Yuxin Wang, Jiyan Zhang, Like Wang, Yufeng Cang, Peng Cao, Linlin Bi, Haibo Xu

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Figure 3

The effects of optogenetic stimulation of MePVGlu neurons on wakefulness and anxiety-like behavior.

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The effects of optogenetic stimulation of MePVGlu neurons on wakefulness...
(A) Schematic of AAV-CaMKIIa-hChR2-GFP/AAV-CaMKIIa-GFP virus injection and optogenetic modulation of MePVGlu neurons (left panel). AAV-CaMKIIa-ChR2-GFP expression and optical fiber placement in the MePV (right panel). Scale bar = 200 μm. (B) Electrophysiology recordings of MePVGlu neurons expressing ChR2 triggered by blue light pulses at 10 Hz. (C) An EEG spectrogram and EEG-EMG trace showed that 10 Hz stimulation was administered during NREM sleep. The arrowheads represent 4 and 8 Hz. The color scale represents the raw power spectral density (mV2). (D) Latencies to awaken from sleep in response to varied frequencies of visual stimulation (1 stimulation/animal). The latencies of NREM to wake were gradually reduced by the higher light stimulation at frequencies of 5 Hz, 10 Hz, 15 Hz, and 20 Hz, respectively. (E) Hypnograms for sleep and wakefulness. The optical stimulation of 2 hours was performed in the ChR2 group (470 nm, 10 Hz, 4 seconds/60 seconds, 2 hours). (F) The time spent in each state during 2 hours of light stimulation. (G) The wakefulness, NREM, and REM sleep duration of MePVGlu-ChR2 mice subjected to 2 hours of opto-stimulation (10 Hz for 4 seconds with a 56-second interval). (H) Open field test track plots with representative track plots (left). Time spent in the center zone and distance traveled (right). The red frame represents the central zone. (I) Heatmap depiction of raised plus maze testing (left) and time spent on open/closed arms (right). Mann-Whitney rank sum test for D. Wilcoxon signed rank test, Mann-Whitney rank sum test, or 2-way RM ANOVA with Holm-Šídák post hoc comparison for F. Wilcoxon signed rank test for G and I. Two-way RM ANOVA with Holm-Šídák post hoc comparison for H. n = 8 per group. All error bars are SEM. *P < 0.05, **P < 0.01, and ***P < 0.001.