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急性束缚应激下 CD1 雄性小鼠的神经炎症、体温和行为变化:一项探索性研究。

Neuroinflammation, body temperature and behavioural changes in CD1 male mice undergoing acute restraint stress: An exploratory study.

机构信息

Department of Biomedical, Surgical and Dental Sciences-One Health Unit, Università degli Studi di Milano, Milan, Italy.

Department of Cardiovascular, Neural and Metabolic Sciences, Istituto Auxologico Italiano, IRCCS, San Luca Hospital, Milan, Italy.

出版信息

PLoS One. 2021 Nov 15;16(11):e0259938. doi: 10.1371/journal.pone.0259938. eCollection 2021.

DOI:10.1371/journal.pone.0259938
PMID:34780550
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8592432/
Abstract

BACKGROUND

Animal models used to study pathologies requiring rehabilitation therapy, such as cardiovascular and neurologic disorders or oncologic disease, must be as refined and translationally relevant as possible. Sometimes, however, experimental procedures such as those involving restraint may generate undesired effects which may act as a source of bias. However, the extent to which potentially confounding effects derive from such routine procedures is currently unknown. Our study was therefore aimed at exploring possible undesirable effects of acute restraint stress, whereby animals were exposed to a brightly lit enclosed chamber (R&L) similar to those that are commonly used for substance injection. We hypothesised that this would induce a range of unwanted physiological alterations [such as neuroinflammatory response and changes in body weight and in brown adipose tissue (BAT)] and behavioural modification, and that these might be mitigated via the use of non-aversive handling methods: Tunnel Handling (NAH-T) and Mechanoceptive Handling (NAH-M)) as compared to standard Tail Handling (TH).

METHODS

Two indicators of physiological alterations and three potentially stress sensitive behavioural parameters were assessed. Physiological alterations were recorded via body weight changes and assessing the temperature of Brown Adipose Tissue (BAT) using infra-red thermography (IRT), and at the end of the experiment we determined the concentration of cytokines CXCL12 and CCL2 in bone marrow (BM) and activated microglia in the brain. Nest complexity scoring, automated home-cage behaviour analysis (HCS) and Elevated Plus Maze testing (EPM) were used to detect any behavioural alterations. Recordings were made before and after a 15-minute period of R&L in groups of mice handled via TH, NAH-T or NAH-M.

RESULTS

BAT temperature significantly decreased in all handling groups following R&L regardless of handling method. There was a difference, at the limit of significance (p = 0.06), in CXCL12 BM content among groups. CXCL12 content in BM of NAH-T animals was similar to that found in Sentinels, the less stressed group of animals. After R&L, mice undergoing NAH-T and NAH-M showed improved body-weight maintenance compared to those exposed to TH. Mice handled via NAH-M spent a significantly longer time on the open arms of the EPM. The HCS results showed that in all mice, regardless of handling method, R&L resulted in a significant reduction in walking and rearing, but not in total distance travelled. All mice also groomed more. No difference among the groups was found in Nest Score, in CCL2 BM content or in brain activated microglia.

CONCLUSIONS

Stress induced by a common restraint procedure caused metabolic and behavioural changes that might increase the risk of unexpected bias. In particular, the significant decrease in BAT temperature could affect the important metabolic pathways controlled by this tissue. R&L lowered the normal frequency of walking and rearing, increased grooming and probably carried a risk of low-grade neuro-inflammation. Some of the observed alterations can be mitigated by Non-aversive handlings.

摘要

背景

用于研究需要康复治疗的病理学的动物模型,如心血管和神经紊乱或肿瘤疾病,必须尽可能地精细和具有转化相关性。然而,有时,涉及约束的实验程序可能会产生不良影响,这些影响可能成为偏倚的来源。然而,目前尚不清楚这种潜在的混杂效应在多大程度上源自此类常规程序。因此,我们的研究旨在探索急性束缚应激的潜在不良影响,即将动物暴露于类似于通常用于药物注射的明亮封闭室(R&L)中。我们假设这会引起一系列不必要的生理变化[如神经炎症反应以及体重和棕色脂肪组织(BAT)的变化]和行为改变,并且这些改变可以通过使用非痛苦的处理方法来减轻:隧道处理(NAH-T)和机械处理(NAH-M)与标准尾巴处理(TH)相比。

方法

评估了两种生理变化指标和三种潜在的应激敏感行为参数。通过体重变化和使用红外热成像(IRT)来测量棕色脂肪组织(BAT)的温度来记录生理变化,并且在实验结束时,我们确定了骨髓(BM)中细胞因子 CXCL12 和 CCL2 的浓度以及大脑中激活的小胶质细胞。巢复杂度评分、自动化笼内行为分析(HCS)和高架十字迷宫测试(EPM)用于检测任何行为改变。在 TH、NAH-T 或 NAH-M 处理的小鼠组中,在 R&L 前后进行了记录。

结果

无论处理方法如何,BAT 温度在所有处理组在 R&L 后均明显下降。在组间 CXCL12 BM 含量上存在差异(p = 0.06)。NAH-T 动物的 CXCL12 BM 含量与哨兵(应激较小的动物组)相似。在 R&L 后,接受 NAH-T 和 NAH-M 处理的小鼠与接受 TH 处理的小鼠相比,体重维持更好。接受 NAH-M 处理的小鼠在 EPM 的开放臂上花费的时间明显更长。HCS 结果表明,在所有小鼠中,无论处理方法如何,R&L 都会导致行走和后肢的显著减少,但不会导致总行进距离减少。所有小鼠的梳理行为也更多。在巢评分、BM 中 CCL2 含量或大脑中激活的小胶质细胞方面,各组之间没有差异。

结论

由常见束缚程序引起的应激导致了代谢和行为的改变,这可能增加了意外偏倚的风险。特别是,BAT 温度的显著下降可能会影响该组织控制的重要代谢途径。R&L 降低了正常行走和后肢的频率,增加了梳理行为,并且可能存在低度神经炎症的风险。通过非痛苦处理可以减轻一些观察到的改变。

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