右美托咪定调节Nrf2/HO-1信号通路对异氟醚引发的术后认知功能障碍小鼠的神经保护作用*

doi:10.3870/j.issn.1672-0741.25.11.018

摘要/Abstract

摘要： 目的探究右美托咪定对术后认知功能障碍小鼠的神经保护作用,并揭示其具体作用机制。方法将SPF级健康老年小鼠50只随机分为对照组、模型组、右美托咪定(Dex)组、Nrf2激活剂(SFN)组、Dex+SFN组,除对照组外其余小鼠在异氟醚麻醉下行开腹手术,构建术后认知功能障碍模型。旷场实验和Morris水迷宫实验评估小鼠认知功能,苏木精-伊红染色观察海马神经元的形态和结构变化,TUNEL染色检测海马神经元凋亡,Western blot测定海马组织内Nrf2、HO-1蛋白表达水平。结果与对照组相比,模型组小鼠表现出显著的行为抑制:运动路程明显缩短[(13.45±1.01)vs.(16.35±1.08)m,P<0.01],旷场中心停留时间明显减少[(11.05±1.07)vs.(14.21±1.14)s,P<0.01];严重的空间学习记忆障碍:逃避潜伏期激增[(52.34±3.25)vs.(11.45±0.52)s,P<0.01],穿越平台次数减少[(2.45±0.13)vs.(8.63±0.41)次,P<0.01];小鼠出现海马神经元排列紊乱、数量减少或结构改变等退行性变化;神经细胞凋亡率显著升高[(51.05 ± 2.58)%vs.(0.12 ± 0.01)%,P<0.01];Nrf2蛋白表达量降低[(0.18±0.05)vs.(1.00±0.00),P<0.01],HO-1蛋白表达量降低[(0.20±0.06)vs.(1.00±0.00),P<0.01]。与模型组比较,各治疗组模型动物的行为抑制均得到显著改善:Dex组小鼠运动路程[(14.50±1.03)m]明显增加,中心停留时间[(12.58±1.08)s]明显增加(均P<0.05),SFN组小鼠运动路程[(14.87±1.02)m]明显增加,中心停留时间[(12.69±1.09)s]明显增加(均P<0.05);所有治疗组的认知功能均显著改善:Dex组逃避潜伏期降低[(30.43±1.82)s,P<0.01],穿越次数增加[(4.85±0.22)次,P<0.01],SFN组潜伏期降低[(28.74±1.76)s,P<0.01],穿越次数增加[(5.12±0.25)次,P<0.01];小鼠海马组织内神经元损伤明显改善;Dex组神经细胞凋亡率降低[(14.71 ± 1.15)%vs.(51.05 ± 2.58)%,P<0.01],SFN组神经细胞凋亡率降低[(18.13 ± 1.32)%vs.(51.05 ± 2.58)%,P<0.01];Dex组和SFN组的Nrf2和HO-1蛋白表达量均升高(P<0.05,P<0.01)。与Dex组相比,Dex+SFN组小鼠运动路程明显增加[(15.68±1.05)m,P<0.05],中心停留时间明显增加[(13.71±1.12)s,P<0.05];潜伏期明显缩短[(20.03±1.17)s,P<0.01],穿越次数明显增加[(6.74±0.36)次,P<0.01];小鼠海马组织内神经元损伤改善更显著;神经细胞凋亡率进一步降低[(10.81 ± 0.94)%vs.(14.71 ± 1.15)%,P<0.01];Nrf2和HO-1蛋白表达量进一步升高(均P<0.05)。结论 Dex对异氟醚引发的术后认知功能障碍小鼠具有明显的神经保护作用,其机制可能与调控Nrf2/HO-1信号通路有关。

关键词: 右美托咪定, Nrf2/HO-1, 异氟醚, 认知功能障碍, 神经保护

Abstract: Objective To investigate the neuroprotective effect of dexmedetomidine(Dex)on isoflurane-induced postoperative cognitive dysfunction(POCD)in mice and elucidate its underlying mechanism. Methods Fifty SPF-grade aged mice were randomly divided into five groups:control,model,Dex,SFN(Nrf2 activator),and Dex+SFN.Except for the control group,all mice underwent open abdominal surgery under isoflurane anesthesia to establish the POCD model.Cognitive function was assessed using the open field test and Morris water maze test.Hematoxylin-eosin(HE)staining was used to observe morphological changes in hippocampal neurons.TUNEL staining was employed to detect hippocampal neuronal apoptosis.Western blotting was performed to measure the expression levels of Nrf2 and HO-1 proteins in hippocampal tissue. Results Compared with the control group,the model group exhibited significant behavioral inhibition:Reduced total distance traveled[(13.45±1.01)vs.(16.35±1.08)m,P<0.01]and decreased time spent in the center of the open field[(11.05±1.07)vs.(14.21±1.14)s,P<0.01].The model group also showed severe spatial learning and memory impairment:Increased escape latency[(52.34±3.25)vs.(11.45±0.52)s,P<0.01]and decreased number of platform crossings[(2.45±0.13)vs.(8.63±0.41),P<0.01].Degenerative changes were observed in hippocampal neurons,including disordered arrangement,reduced cell count,and structural alterations.The neuronal apoptosis rate was significantly higher in the model group[(51.05 ± 2.58)%vs.(0.12 ± 0.01)%,P<0.01],and Nrf2 and HO-1 protein expression were reduced(both P<0.01).Compared with the model group,all treatment groups exhibited a significant amelioration in behavioral inhibition:The Dex group showed increased distance traveled[(14.50±1.03)m,P<0.05]and increased center time[(12.58±1.08)s,P<0.05];the SFN group also showed increased distance traveled[(14.87±1.02)m,P<0.05]and increased center time[(12.69±1.09)s,P<0.05)].All treatment groups showed significant improvement in cognitive function:The Dex group exhibited decreased latency[(30.43±1.82)s,P<0.01]and increased crossings[(4.85±0.22)times,P<0.01];the SFN group showed decreased latency[(28.74±1.76)s,P<0.01]and increased crossings[(5.12±0.25)times,P<0.01).Hippocampal neuronal damage was markedly ameliorated in all treatment groups.The Dex group had a reduced apoptosis rate[(14.71 ± 1.15)%vs.(51.05 ± 2.58)%,P<0.01];the SFN group also had a reduced apoptosis rate[(18.13 ± 1.32)%vs.(51.05 ± 2.58)%,P<0.01].Both the Dex and SFN group showed increased Nrf2 and HO-1 expressions(P<0.05,P<0.01).Compared with the Dex group,the Dex+SFN group showed further increased distance traveled[(15.68±1.05)m,P<0.05],increased center time[(13.71±1.12)s,P<0.05],decreased latency[(20.03±1.17)s,P<0.01],and increased crossings[(6.74±0.36)times,P<0.01];more significant improvement in hippocampal neuronal damage was observed,along with further reduced apoptosis rate[(10.81 ± 0.94)%vs.(14.71 ± 1.15)%,P<0.01],and further increased Nrf2 and HO-1 expression(both P<0.05). Conclusion Dex exerts a significant neuroprotective effect against isoflurane-induced POCD in mice,which may be associated with the regulation of Nrf2/HO-1 signaling pathway.

Key words: dexmedetomidine, Nrf2/HO-1, isoflurane, cognitive dysfunction, neuroprotective effect

中图分类号:

R614

张超, 马旭东, 王乐, 米菲, 田浩, 高巍. 右美托咪定调节Nrf2/HO-1信号通路对异氟醚引发的术后认知功能障碍小鼠的神经保护作用^*[J]. 华中科技大学学报（医学版）, 2026, 55(2): 175-181.

Zhang Chao, Ma Xudong, Wang Le et al. Neuroprotective Effect of Dexmedetomidine Against Isoflurane-induced Postoperative Cognitive Dysfunction in Mice:Involvement of the Nrf2/HO-1 Signaling Pathway[J]. Acta Medicinae Universitatis Scientiae et Technologiae Huazhong, 2026, 55(2): 175-181.

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右美托咪定调节Nrf2/HO-1信号通路对异氟醚引发的术后认知功能障碍小鼠的神经保护作用^*

Neuroprotective Effect of Dexmedetomidine Against Isoflurane-induced Postoperative Cognitive Dysfunction in Mice:Involvement of the Nrf2/HO-1 Signaling Pathway

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