Sleep Research Laboratory, Department of Pathology and Anatomy, Eastern Virginia Medical School, Norfolk, VA, USA.
Sleep Research Laboratory, Department of Pathology and Anatomy, Eastern Virginia Medical School, Norfolk, VA, USA.
Horm Behav. 2018 Apr;100:20-28. doi: 10.1016/j.yhbeh.2018.02.013. Epub 2018 Mar 12.
The basolateral nucleus of the amygdala (BLA) plays a significant role in mediating individual differences in the effects of fear memory on sleep. Here, we assessed the effects of antagonizing corticotropin releasing factor receptor 1 (CRFR1) after shock training (ST) on fear-conditioned behaviors and sleep. Outbred Wistar rats were surgically implanted with electrodes for recording EEG and EMG and with bilateral guide cannulae directed at BLA. Data loggers were placed intraperitoneally to record core body temperature. The CRFR1 antagonist, antalarmin (ANT; 4.82 mM) was microinjected into BLA after shock training (ST: 20 footshocks, 0.8 mA, 0.5 s duration, 60 s interstimulus interval), and the effects on sleep, freezing and the stress response (stress-induced hyperthermia, SIH) were examined after ST and fearful context re-exposure alone at 7 days (CTX1) and 21 days (CTX2) post-ST. EEG and EMG recordings were scored for non-rapid eye movement sleep (NREM), rapid eye movement sleep (REM) and wakefulness. The rats were separated into 4 groups: Vehicle-vulnerable (Veh-Vul; n = 10), Veh-resilient (Veh-Res; n = 11), ANT-vulnerable (ANT-Vul; n = 8) and ANT-resilient (ANT-Res; n = 8) based on whether, compared to baseline, the rats showed a decrease or no change/increase in REM during the first 4 h following ST. Post-ST ANT microinjected into BLA attenuated the fear-conditioned reduction in REM in ANT-Vul rats on CTX1, but did not significantly alter REM in ANT-Res rats. However, compared to Veh treated rats, REM was reduced in ANT treated rats on CTX2. There were no group differences in freezing or SIH across conditions. Therefore, CRFR1 in BLA plays a role in mediating individual differences in sleep responses to stress and in the extinction of fear conditioned changes in sleep.
杏仁基底外侧核(BLA)在介导恐惧记忆对睡眠影响的个体差异方面发挥着重要作用。在这里,我们评估了在休克训练(ST)后拮抗促肾上腺皮质释放因子受体 1(CRFR1)对恐惧条件行为和睡眠的影响。远交 Wistar 大鼠接受了用于记录 EEG 和 EMG 的电极和双侧导向 BLA 的引导套管的手术植入。数据记录器被放置在腹膜内以记录核心体温。CRFR1 拮抗剂 antalarmin(ANT;4.82mM)在休克训练(ST:20 次足底电击,0.8mA,0.5s 持续时间,60s 刺激间隔)后被注入 BLA,并且在 ST 后和单独在 7 天(CTX1)和 21 天(CTX2)重新暴露于恐惧环境后,观察对睡眠、冻结和应激反应(应激诱导性体温升高,SIH)的影响。EEG 和 EMG 记录被评分用于非快速眼动睡眠(NREM)、快速眼动睡眠(REM)和觉醒。大鼠被分为 4 组:根据与基线相比,大鼠在 ST 后前 4 小时 REM 是否减少或没有变化/增加,将大鼠分为 Vehicle-vulnerable(Veh-Vul;n=10)、Veh-resilient(Veh-Res;n=11)、ANT-vulnerable(ANT-Vul;n=8)和 ANT-resilient(ANT-Res;n=8)。与 Veh 处理的大鼠相比,ANT 处理的大鼠在 CTX2 时 REM 减少,但在 ANT-Res 大鼠中 REM 没有显著改变。然而,与 Veh 处理的大鼠相比,ANT 处理的大鼠在 CTX2 时 REM 减少。在不同条件下,各组之间的冻结或 SIH 没有差异。因此,BLA 中的 CRFR1 在介导个体对压力和恐惧条件下睡眠变化的消退反应的睡眠反应差异方面发挥作用。
