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预测应激弹性和脆弱性:脑源性神经营养因子和快速眼动睡眠作为个体应激反应的潜在生物标志物。

Predicting stress resilience and vulnerability: brain-derived neurotrophic factor and rapid eye movement sleep as potential biomarkers of individual stress responses.

机构信息

Sleep Research Laboratory, Department of Pathology and Anatomy, Eastern Virginia Medical School, Norfolk, VA.

出版信息

Sleep. 2020 Jan 13;43(1). doi: 10.1093/sleep/zsz199.

DOI:10.1093/sleep/zsz199
PMID:31556950
Abstract

STUDY OBJECTIVES

To examine the rapid eye movement sleep (REM) response to mild stress as a predictor of the REM response to intense stress and brain-derived neurotrophic factor (BDNF) as a potential biomarker of stress resilience and vulnerability.

METHODS

Outbred Wistar rats were surgically implanted with electrodes for recording electroencephalography (EEG) and electromyogram (EMG) and intraperitoneal Data loggers to record body temperature. Blood was also obtained to measure circulating BDNF. After recovery, rats were exposed to mild stress (novel chamber, NC) and later intense stress (shock training, ST), followed by sleep recording. Subsequently, rats were separated into resilient (Res; n=27) or vulnerable (Vul; n = 15) based on whether or not there was a 50% or greater decrease in REM after ST compared to baseline. We then compared sleep, freezing, and the stress response (stress-induced hyperthermia, SIH) across groups to determine the effects of mild and intense stress to determine if BDNF was predictive of the REM response.

RESULTS

REM totals in the first 4 hours of sleep after exposure to NC predicted REM responses following ST with resilient animals having higher REM and vulnerable animals having lower REM. Resilient rats had significantly higher baseline peripheral BDNF compared to vulnerable rats.

CONCLUSIONS

These results show that outbred rats display significant differences in post-stress sleep and peripheral BDNF identifying these factors as potential markers of resilience and vulnerability prior to traumatic stress.

摘要

研究目的

探讨快速眼动睡眠(REM)对轻度应激的反应作为对强烈应激的 REM 反应的预测因子,以及脑源性神经营养因子(BDNF)作为应激弹性和脆弱性的潜在生物标志物。

方法

对 Wistar 大鼠进行手术植入电极,用于记录脑电图(EEG)和肌电图(EMG),并通过腹腔内数据记录器记录体温。还采集血液以测量循环 BDNF。恢复后,大鼠暴露于轻度应激(新环境,NC),随后是强烈应激(休克训练,ST),随后进行睡眠记录。随后,根据 ST 后 REM 与基线相比是否降低 50%或更多,将大鼠分为有弹性(Res;n=27)或脆弱(Vul;n=15)。然后,我们比较了睡眠、冻结和应激反应(应激诱导性体温升高,SIH)在各组之间的差异,以确定轻度和强烈应激的影响,以确定 BDNF 是否可以预测 REM 反应。

结果

暴露于 NC 后睡眠的前 4 小时的 REM 总量预测了 ST 后的 REM 反应,有弹性的动物 REM 更高,脆弱的动物 REM 更低。有弹性的大鼠与脆弱的大鼠相比,基线外周 BDNF 显著升高。

结论

这些结果表明,杂合大鼠在应激后睡眠和外周 BDNF 方面存在显著差异,这些因素可作为创伤前应激的弹性和脆弱性的潜在标志物。

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