体育活动可减轻间歇性低氧诱导的空间学习障碍和氧化应激。

Physical activity attenuates intermittent hypoxia-induced spatial learning deficits and oxidative stress.

机构信息

Department of Pediatrics, Comer Children's Hospital, Pritzker School of Medicine, The University of Chicago, 5721 South Maryland Avenue, MC 8000, Suite K-160, Chicago, IL 60637, USA.

出版信息

Am J Respir Crit Care Med. 2010 Jul 1;182(1):104-12. doi: 10.1164/rccm.201001-0108OC. Epub 2010 Mar 11.

DOI:10.1164/rccm.201001-0108OC

PMID:20224062

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2902754/

Abstract

RATIONALE

Exposure to intermittent hypoxia (IH), such as occurs in sleep-disordered breathing, is associated with substantial cognitive impairments, oxidative stress and inflammation, and increased neuronal cell losses in brain regions underlying learning and memory in rats. Physical activity (PA) is now recognized as neuroprotective in models of neuronal injury and degeneration.

OBJECTIVES

To examine whether PA will ameliorate IH-induced deficits.

METHODS

Young adult Sprague-Dawley rats were randomly assigned to one of four treatment groups including normal activity (NA) or PA for 3 months and then subjected to either normoxia (RA) or exposure to IH during the light phase during the last 14 days.

MEASUREMENTS AND MAIN RESULTS

Significant impairments in IH-exposed rats emerged on both latency and pathlength to locate the hidden platform in a water maze and decreased spatial bias during the probe trials. These impairments were not observed in PA-IH rats. In addition, the PA-IH group, relative to NA-IH, conferred greater resistance to both lipid peroxidation and 8-hydroxy-2'-deoxyguanosine (DNA damage) in both the cortex and hippocampus. In support of a neuroprotective effect from PA, PA-IH versus NA-IH rats showed greater AKT activation and neuronal insulin growth factor-1 in these regions.

CONCLUSIONS

Behavioral modifications such as increased physical activity are associated with decreased susceptibility to IH-induced spatial task deficits and lead to reduced oxidative stress, possibly through improved preservation of insulin growth factor-1-Akt neuronal signaling. Considering the many advantages of PA, interventional strategies targeting behavioral modifications leading to increased PA should be pursued in patients with sleep-disordered breathing.

摘要

原理

间歇性低氧（IH）暴露，如睡眠呼吸障碍中发生的情况，与大鼠学习和记忆相关脑区的大量认知障碍、氧化应激和炎症以及神经元细胞丢失有关。体育活动（PA）现在被认为在神经元损伤和退化的模型中具有神经保护作用。

目的

研究 PA 是否会改善 IH 引起的损伤。

方法

年轻成年 Sprague-Dawley 大鼠随机分为四组治疗组之一，包括正常活动（NA）或 PA 活动 3 个月，然后接受正常氧（RA）或在最后 14 天的光照期暴露于 IH。

测量和主要结果

在水迷宫中寻找隐藏平台的潜伏期和路径长度上，IH 暴露的大鼠出现了明显的损伤，并且在探测试验中空间偏向性降低。在 PA-IH 大鼠中没有观察到这些损伤。此外，与 NA-IH 相比，PA-IH 组在皮质和海马体中，对脂质过氧化和 8-羟基-2'-脱氧鸟苷（DNA 损伤）均具有更大的抗性。支持 PA 的神经保护作用，PA-IH 与 NA-IH 相比，这些区域的 AKT 激活和神经元胰岛素生长因子-1 增加。

结论

行为改变，如增加体育活动，与 IH 引起的空间任务缺陷的易感性降低有关，并导致氧化应激减少，可能通过改善胰岛素生长因子-1-Akt 神经元信号的保存来实现。考虑到 PA 的许多优点，应该在睡眠呼吸障碍患者中寻求针对行为改变的干预策略，以增加 PA。

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