Ischemia-induced cell depolarization: does the hyperpolarization-activated cation channel HCN2 affect the outcome after stroke in mice?

Petra Ehling, Eva Göb, Stefan Bittner, Thomas Budde, Andreas Ludwig, Christoph Kleinschnitz, Sven G Meuth
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引用次数: 9

Abstract

Background: Brain ischemia is known to include neuronal cell death and persisting neurological deficits. A lack of oxygen and glucose are considered to be key mediators of ischemic neurodegeneration while the exact mechanisms are yet unclear. In former studies the expression of two different two-pore domain potassium (K2P) channels (TASK1, TREK1) were shown to ameliorate neuronal damage due to cerebral ischemia. In neurons, TASK channels carrying hyperpolarizing K+ leak currents, and the pacemaker channel HCN2, carrying depolarizing Ih, stabilize the membrane potential by a mutual functional interaction. It is assumed that this ionic interplay between TASK and HCN2 channels enhances the resistance of neurons to insults accompanied by extracellular pH shifts.

Methods: In C57Bl/6 (wildtype, WT), hcn2+/+ and hcn2-/- mice we used an in vivo model of cerebral ischemia (transient middle cerebral artery occlusion (tMCAO)) to depict a functional impact of HCN2 in stroke formation. Subsequent analyses comprise behavioural tests and hcn2 gene expression assays.

Results: After 60 min of tMCAO induction in WT mice, we collected tissue samples at 6, 12, and 24 h after reperfusion. In the infarcted neocortex, hcn2 expression analyses revealed a nominal peak of hcn2 expression 6 h after reperfusion with a tendency towards lower expression levels with longer reperfusion times. Hcn2 gene expression levels in infarcted basal ganglia did not change after 6 h and 12 h. Only at 24 h after reperfusion, hcn2 expression significantly decreases by ~55%. However, 30 min of tMCAO in hcn2-/- as well as hcn2+/+ littermates induced similar infarct volumes. Behavioural tests for global neurological function (Bederson score) and motor function/coordination (grip test) were performed at day 1 after surgery. Again, we found no differences between the groups.

Conclusions: Here, we hypothesized that the absence of HCN2, an important functional counter player of TASK channels, affects neuronal survival during stroke-induced tissue damage. However, together with a former study on TASK3 these results implicate that both TASK3 and HCN2 which were supposed to be neuroprotective due to their pH-dependency, do not influence ischemic neurodegeneration during stroke in the tMCAO model.

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缺血诱导的细胞去极化:超极化激活的阳离子通道HCN2是否影响小鼠脑卒中后的预后?
背景:已知脑缺血包括神经元细胞死亡和持续的神经功能缺损。缺氧和葡萄糖被认为是缺血性神经变性的关键介质,但确切的机制尚不清楚。在先前的研究中,两种不同的双孔结构域钾(K2P)通道(TASK1, TREK1)的表达被证明可以改善脑缺血引起的神经元损伤。在神经元中,携带超极化K+泄漏电流的TASK通道和携带去极化Ih的起搏器通道HCN2通过相互功能作用稳定膜电位。假设TASK和HCN2通道之间的离子相互作用增强了神经元对伴随细胞外pH变化的损伤的抵抗力。方法:在C57Bl/6(野生型,WT)、hcn2+/+和hcn2-/-小鼠中建立脑缺血(短暂性大脑中动脉闭塞(tMCAO))的体内模型,描述hcn2对脑卒中形成的功能影响。随后的分析包括行为测试和hcn2基因表达分析。结果:tMCAO诱导WT小鼠60 min后,于再灌注后6、12、24 h采集组织样本。在梗死的新皮层中,hcn2表达分析显示,hcn2表达在再灌注后6小时达到峰值,随着再灌注时间的延长,hcn2表达水平有降低的趋势。Hcn2基因表达水平在梗死后6 h和12 h无明显变化,仅在再灌注后24 h, Hcn2表达水平显著降低~55%。然而,在hcn2-/-和hcn2+/+窝鼠中,30分钟的tMCAO诱导的梗死体积相似。术后第1天进行整体神经功能(Bederson评分)和运动功能/协调(握力测试)的行为测试。同样,我们发现两组之间没有差异。结论:在这里,我们假设HCN2的缺失会影响脑卒中诱导的组织损伤过程中神经元的存活,HCN2是TASK通道的一个重要功能对抗者。然而,结合先前对TASK3的研究,这些结果表明,TASK3和HCN2由于其ph依赖性而被认为具有神经保护作用,但在tMCAO模型中,它们并不影响脑卒中期间的缺血性神经变性。
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