Department of Physiology, Faculty of Medical Sciences, Tarbiat Modares University, Tehran, Iran.
Department of Physiology, Faculty of Medical Sciences, Tarbiat Modares University, Tehran, Iran; Institute for Brain Sciences and Cognition, Faculty of Medical Sciences, Tarbiat Modares University, Tehran, Iran.
Neuroscience. 2019 May 15;406:176-185. doi: 10.1016/j.neuroscience.2019.03.007. Epub 2019 Mar 12.
Low frequency stimulation (LFS) has anticonvulsant effect and may restore the ability of long-term potentiation (LTP) to the epileptic brain. The mechanisms of LFS have not been completely determined. Here, we showed that LTP induction was impaired following in vitro epileptiform activity (EA) in hippocampal slices, but application of LFS prevented this impairment. Then, we investigated the involvement of α-adrenergic receptors in this effect of LFS. EA was induced by increasing the extracellular K concentration to 12 mM and EPSPs were recorded from CA1 neurons in whole cell configuration. EA increased EPSP amplitude from 6.9 ± 0.7 mV to 9.6 ± 0.6 mV. For LTP induction, the Schaffer collaterals were stimulated by high frequency stimulation (HFS; two trains of 100 pulses, 100 Hz at the interval of 20 s). The application of HFS resulted in 40.9 ± 2.3% increase in the amplitude of EPSPs. However, following EA, HFS could not produce any significant changes in EPSP amplitude. Administration of LFS (1 Hz, 900 pulses) to Schaffer collaterals at the beginning of EA restored LTP induction to the hippocampal slices and HFS increased the EPSPs amplitude up to 41.7 ± 3.1% of baseline. When slices were perfused by prazosin (α-adrenergic receptor antagonist; 10 μM) before and during LFS application, LFS improvement on LTP induction was reduced significantly. Perfusion of slices by yohimbine (α-adrenergic receptor antagonist; 5 μM) had no effect on LFS action. Therefore, it may be concluded that following epileptiform activity, LFS can improve the impairment of LTP generation through α, but not α, adrenergic receptor activity.
低频刺激(LFS)具有抗惊厥作用,并可能使癫痫大脑恢复长时程增强(LTP)的能力。LFS 的机制尚未完全确定。在这里,我们表明,在海马切片中的体外癫痫样活动(EA)之后,LTP 的诱导受损,但 LFS 的应用可防止这种损害。然后,我们研究了α-肾上腺素能受体在 LFS 这种作用中的参与。通过将细胞外 K 浓度增加到 12 mM 来诱导 EA,并在全细胞配置中从 CA1 神经元记录 EPSP。EA 将 EPSP 幅度从 6.9±0.7 mV 增加到 9.6±0.6 mV。为了诱导 LTP,通过高频刺激(HFS;两个 100 脉冲的串,间隔 20 s 时为 100 Hz)刺激 Schaffer 侧支。HFS 的应用导致 EPSP 幅度增加 40.9±2.3%。然而,在 EA 之后,HFS 不能使 EPSP 幅度产生任何显著变化。在 EA 开始时,将 LFS(1 Hz,900 个脉冲)施加到 Schaffer 侧支可以恢复海马切片中的 LTP 诱导,并且 HFS 将 EPSP 幅度增加到基线的 41.7±3.1%。当在 LFS 应用之前和期间用普萘洛尔(α-肾上腺素能受体拮抗剂;10 μM)灌流切片时,LFS 对 LTP 诱导的改善明显减少。用育亨宾(α-肾上腺素能受体拮抗剂;5 μM)灌流切片对 LFS 作用没有影响。因此,可以得出结论,在癫痫样活动之后,LFS 可以通过α但不是α肾上腺素能受体活性改善 LTP 产生的损害。
