改变灌注介质流速对4-氨基吡啶诱导的大鼠海马切片神经元活性和局部pO(2)的影响。

V G Sydorenko, O S Komarov, B S Sushko, A K Romanov, E V Isaeva, D S Isaev
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引用次数: 0

摘要

脑片制备是检测药物对神经元兴奋性影响最常用的工具。然而,在体外缺乏血液循环的情况下,组织氧合在很大程度上取决于实验条件。低氧和高氧都可以调节神经网络的活动。因此,实验过程中组织氧水平的变化可能会影响最终结果。本研究采用4-氨基吡啶(4-AP)模型研究了氧合对未成熟大鼠海马片制备中癫痫易感性的影响。我们发现,在1-5 ml/min范围内改变介质灌注速率对组织氧合、4- ap诱导的同步神经元活动的幅度和频率有很大影响。流速的降低以及细胞外介质中氧被氮取代导致4- ap诱导的同步神经元放电的强烈减少。我们的研究结果表明,4- ap诱导的神经元活动功率与切片组织中的氧水平之间存在显著的线性相关。同时,我们还证明了介质流动的存在是支持片状氧化水平恒定的必要条件。这些数据表明,脑切片的供氧在很大程度上取决于实验方案,并可能调节体外神经元网络的兴奋性,这在规划癫痫相关研究时应予以考虑。
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Modulation of 4-aminopyridine-induced neuronal activity and local pO(2)in rat hippocampal slices by changing the flow rate of the superfusion medium.

The brain slice preparation is the most frequently used tool for testing of pharmacological agents on the neuronal excitability. However in the absence of blood circulation in vitro, the tissue oxygenation strongly depends on the experimental conditions. It is well established that both hypoxia as well as hyperoxia can modulate the neuronal network activity. Thereby changes in tissue oxygen level during experiment may affect the final result. In the present study we investigated the effect of oxygenation on seizure susceptibility in the hippocampal slice preparation using 4-aminopyridine (4-AP) model of ictogenesis in inmature rats. We found that changing the medium perfusion rate in the range of 1-5 ml/min greatly affects the tissue oxygenation, amplitude and frequency of 4-AP-induced synchronous neuronal activity. The decrease in the flow rate as well as substitution of the oxygen in the extracellular medium with nitrogen causes a strong reduction of 4-AP-induced synchronous neuronal discharges. Our results demonstrate a significant linear correlation between the power of 4-AP-induced neuronal activity and the oxygen level in slice tissue. Also we demonstrated that the presence of medium flow is a necessary condition to support the constant level of the slice oxygenation. These data suggest that the oxygen supply of the brain slice strongly depends on experimental protocol and could modulate in vitro neuronal network excitability which should be taken into consideration when planning epilepsy-related studies.

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