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活性氧介导的小白蛋白中间神经元表型丧失导致反复新生儿期氯胺酮暴露后的长期认知障碍。

Reactive Oxygen Species-mediated Loss of Phenotype of Parvalbumin Interneurons Contributes to Long-term Cognitive Impairments After Repeated Neonatal Ketamine Exposures.

作者信息

Zhang Hui, Sun Xiao-Ru, Wang Jing, Zhang Zhen-Zhen, Zhao Hong-Ting, Li Hui-Hui, Ji Mu-Huo, Li Kuan-Yu, Yang Jian-Jun

机构信息

Department of Anesthesiology, Jinling Hospital, Medical School of Nanjing University, Nanjing, 210002, China.

Department of Anesthesiology, Zhongda Hospital, School of Medicine, Southeast University, No. 87 Dingjiaqiao Road, Nanjing, 210009, China.

出版信息

Neurotox Res. 2016 Nov;30(4):593-605. doi: 10.1007/s12640-016-9653-1. Epub 2016 Jul 21.

DOI:10.1007/s12640-016-9653-1
PMID:27443555
Abstract

Ketamine, a common anesthetic used for pediatric patients, has been shown to induce neurotoxicity and alter adolescent behaviors in rats when administered during neonatal period. However, the mechanisms underlying this kind of neurotoxicity remain largely to be determined. Herein, we studied whether the reactive oxygen species (ROS) due to the increased NOX2 mediates loss of phenotype of PV interneurons and thus contributes to long-term cognitive impairments after repeated ketamine exposures. Sprague-Dawley male rat pups received a daily administration of ketamine intraperitoneally (75 mg/kg) from postnatal day 6 (P6) to P8 for three consecutive days. For the interventional study, pups were treated with a NADPH oxidase inhibitor, apocynin (Apo). Learning and memory abilities were tested by the open field, fear conditioning, and Morris water maze on P40, P42-44, and P50-56, respectively. For histological and biochemical assays, a separate cohort of rats was killed on P9 or P60, and the brain tissues were harvested. Our results showed the upregulation of 8-OHdG and gp91/NOX2 and downregulation of PV and glutamic acid decarboxylase 67 (GAD67) after repeated ketamine exposures, which co-occurred with the long-term cognitive impairments as evidenced by the decreased freezing time to context. However, Apo treatment attenuated these abnormalities. Our results suggest that oxidative damage, probably due to the increased NOX2, mediates loss of phenotype of PV interneurons and thus contributes to long-term cognitive impairments after repeated ketamine exposures. Moreover, the inhibition of NADPH oxidase may protect against cognitive dysfunction.

摘要

氯胺酮是一种常用于儿科患者的麻醉剂,研究表明,在新生大鼠出生后早期给予氯胺酮会诱导其神经毒性并改变青春期行为。然而,这种神经毒性的潜在机制很大程度上仍有待确定。在此,我们研究了因NOX2增加而产生的活性氧(ROS)是否介导了小清蛋白(PV)中间神经元表型的丧失,从而导致反复暴露于氯胺酮后出现长期认知障碍。从出生后第6天(P6)至P8,对Sprague-Dawley雄性幼鼠连续3天每天腹腔注射氯胺酮(75mg/kg)。在干预研究中,幼鼠用NADPH氧化酶抑制剂夹竹桃麻素(Apo)进行治疗。分别在P40、P42 - 44和P50 - 56通过旷场试验、恐惧条件反射试验和莫里斯水迷宫试验测试学习和记忆能力。为了进行组织学和生化分析,在P9或P60处死另一组大鼠,并采集脑组织。我们的结果显示,反复暴露于氯胺酮后,8-羟基脱氧鸟苷(8-OHdG)和gp91/NOX2上调,PV和谷氨酸脱羧酶67(GAD67)下调,同时出现长期认知障碍,表现为对环境线索的冻结时间减少。然而,Apo治疗减轻了这些异常。我们的结果表明,可能由于NOX2增加导致的氧化损伤介导了PV中间神经元表型的丧失,从而导致反复暴露于氯胺酮后出现长期认知障碍。此外,抑制NADPH氧化酶可能预防认知功能障碍。

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