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布立西坦和左乙拉西坦与突触囊泡2A蛋白差异性相互作用的证据。

Evidence for a differential interaction of brivaracetam and levetiracetam with the synaptic vesicle 2A protein.

作者信息

Wood Martyn D, Gillard Michel

机构信息

UCB Pharma, Braine l'Alleud, Belgium.

出版信息

Epilepsia. 2017 Feb;58(2):255-262. doi: 10.1111/epi.13638. Epub 2016 Dec 24.

DOI:10.1111/epi.13638
PMID:28012162
Abstract

OBJECTIVE

Brivaracetam (BRV) and levetiracetam (LEV) are effective antiepileptic drugs that bind selectively to the synaptic vesicle 2A (SV2A) protein. However, BRV differs from LEV in that it exhibits more potent and complete seizure suppression in animal models including in amygdala-kindled mice, where BRV afforded nearly complete seizure suppression. This raises the possibility that aside from potency differences, BRV and LEV may interact differently with the SV2A protein, which is not apparent in radioligand-binding competition studies. In this study, we used a recently identified SV2A allosteric modulator, UCB1244283, that appears to induce conformational changes in SV2A, to probe the binding properties of labeled BRV and LEV.

METHODS

Radioligand binding studies were carried out using [ H]BRV and [ H]LEV. Studies were performed in membranes from both recombinant cells expressing human SV2A protein and human brain tissue.

RESULTS

The modulator increased the binding of both radioligands but by different mechanisms. For [ H]BRV, the increase was driven mainly by an increase in affinity, whereas for [ H]LEV, the increase was due to an increase in the number of apparent binding sites. Kinetic studies confirmed this differential effect.

SIGNIFICANCE

These studies suggest that LEV and BRV may act at different binding sites or interact with different conformational states of the SV2A protein. It is possible that some of the pharmacologic differences between BRV and LEV could be due to different interactions with the SV2A protein.

摘要

目的

布瓦西坦(BRV)和左乙拉西坦(LEV)是有效的抗癫痫药物,它们选择性地与突触囊泡2A(SV2A)蛋白结合。然而,BRV与LEV的不同之处在于,在包括杏仁核点燃小鼠在内的动物模型中,它表现出更强且更完全的癫痫发作抑制作用,在该模型中BRV几乎能完全抑制癫痫发作。这就提出了一种可能性,即除了效力差异外,BRV和LEV与SV2A蛋白的相互作用可能不同,而这在放射性配体结合竞争研究中并不明显。在本研究中,我们使用了一种最近鉴定出的SV2A变构调节剂UCB1244283,它似乎能诱导SV2A的构象变化,以探究标记的BRV和LEV的结合特性。

方法

使用[³H]BRV和[³H]LEV进行放射性配体结合研究。研究在表达人SV2A蛋白的重组细胞和人脑组织的膜中进行。

结果

该调节剂增加了两种放射性配体的结合,但机制不同。对于[³H]BRV,增加主要是由亲和力增加驱动的,而对于[³H]LEV,增加是由于表观结合位点数量增加。动力学研究证实了这种差异效应。

意义

这些研究表明LEV和BRV可能作用于不同的结合位点或与SV2A蛋白的不同构象状态相互作用。BRV和LEV之间的一些药理学差异可能是由于与SV2A蛋白的不同相互作用所致。

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