Modification of pre-ictal cortico-hippocampal oscillations by medial ganglionic eminence precursor cells grafting in the pilocarpine model of epilepsy

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2024-08-31 DOI:10.1016/j.yebeh.2024.110027

Simone Amaro Alves Romariz , Querusche Klippel Zanona , Mayara Vendramin Pasquetti , Gabriel Cardozo Muller , Jaqueline de Almeida Xavier , Guus Hermanus Schoorlemmer , Beatriz Monteiro Longo , Maria Elisa Calcagnotto

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Abstract

Cell replacement therapies using medial ganglionic eminence (MGE)-derived GABAergic precursors reduce seizures by restoring inhibition in animal models of epilepsy. However, how MGE-derived cells affect abnormal neuronal networks and consequently brain oscillations to reduce ictogenesis is still under investigation. We performed quantitative analysis of pre-ictal local field potentials (LFP) of cortical and hippocampal CA1 areas recorded in vivo in the pilocarpine rat model of epilepsy, with or without intrahippocampal MGE-precursor grafts (PILO and PILO+MGE groups, respectively). The PILO+MGE animals had a significant reduction in the number of seizures. The quantitative analysis of pre-ictal LFP showed decreased power of cortical and hippocampal delta, theta and beta oscillations from the 5 min. interictal baseline to the 20 s. pre-ictal period in both groups. However, PILO+MGE animals had higher power of slow and fast oscillations in the cortex and lower power of slow and fast oscillations in the hippocampus compared to the PILO group. Additionally, PILO+MGE animals exhibited decreased cortico-hippocampal synchrony for theta and gamma oscillations at seizure onset and lower hippocampal CA1 synchrony between delta and theta with slow gamma oscillations compared to PILO animals. These findings suggest that MGE-derived cell integration into the abnormally rewired network may help control ictogenesis.

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在皮洛卡品癫痫模型中通过内侧神经节突触前体细胞移植改变发作前皮质-海马振荡

在癫痫动物模型中，使用内侧神经节突起（MGE）衍生的GABA能前体的细胞替代疗法可通过恢复抑制作用减少癫痫发作。然而，MGE衍生细胞如何影响异常神经元网络并进而影响大脑振荡以减少癫痫发作仍在研究之中。我们对皮质和海马 CA1 区发作前的局部场电位（LFP）进行了定量分析。PILO+MGE 组动物的癫痫发作次数显著减少。对发作前 LFP 的定量分析显示，从发作间期 5 分钟基线到发作前 20 秒，两组动物的皮质和海马 delta、theta 和 beta 振荡的功率都有所下降。但是，与 PILO 组相比，PILO+MGE 动物的皮层慢速和快速振荡功率更高，而海马的慢速和快速振荡功率更低。此外，与 PILO 组动物相比，PILO+MGE 组动物在癫痫发作开始时皮质海马θ和γ振荡的同步性降低，海马 CA1 δ和θ与慢γ振荡的同步性降低。这些研究结果表明，MGE衍生细胞整合到异常重新布线的网络中可能有助于控制癫痫发作的发生。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464