新型新一代加巴喷丁胺 NVA1309 和 mirogabalin 与 Cavα2δ-1 亚基相互作用的决定因素。

IF 3.3 3区医学 Q2 NEUROSCIENCES

Molecular Brain Pub Date : 2024-08-07 DOI:10.1186/s13041-024-01129-y

Ivana A Souza, Maria A Gandini, Md Yousof Ali, Franz Kricek, George Skouteris, Gerald W Zamponi

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引用次数: 0

摘要

NVA1309 是一种无脑穿透性的新一代加巴喷丁类药物，能在构成加巴喷丁和普瑞巴林结合位点的三重精氨酸基团中的 R243 处与 Cavα2δ 结合。在这项研究中，我们比较了 NVA1309 和 Mirogabalin 的效果，后者是一种对电压门控钙通道亚基 Cavα2δ-1 的亲和力高于普瑞巴林的加巴喷丁类药物，在日本、韩国和台湾被批准用于治疗带状疱疹后神经痛。与普瑞巴林相比，NVA1309 和 mirogabalin 都能抑制体外 Cav2.2 电流，降低 Cav2.2 质膜表达。经典结合残基精氨酸 R243 和新发现的结合残基赖氨酸 K615 的突变可逆转米罗加巴林对 Cav2.2 电流的影响，但不能逆转 NVA1309 的影响。

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Determinants of interactions of a novel next-generation gabapentinoid NVA1309 and mirogabalin with the Cavα2δ-1 subunit.

NVA1309 is a non-brain penetrant next-generation gabapentinoid shown to bind Cavα2δ at R243 within a triple Arginine motif forming the binding site for gabapentin and pregabalin. In this study we have compared the effects of NVA1309 with Mirogabalin, a gabapentinoid drug with higher affinity for the voltage-gated calcium channel subunit Cavα2δ-1 than pregabalin which is approved for post-herpetic neuralgia in Japan, Korea and Taiwan. Both NVA1309 and mirogabalin inhibit Cav2.2 currents in vitro and decrease Cav2.2 plasma membrane expression with higher efficacy than pregabalin. Mutagenesis of the classical binding residue arginine R243 and the newly identified binding residue lysine K615 reverse the effect of mirogabalin on Cav2.2 current, but not that of NVA1309.

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来源期刊

Molecular Brain NEUROSCIENCES-

CiteScore

7.30

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Molecular Brain is an open access, peer-reviewed journal that considers manuscripts on all aspects of studies on the nervous system at the molecular, cellular, and systems level providing a forum for scientists to communicate their findings. Molecular brain research is a rapidly expanding research field in which integrative approaches at the genetic, molecular, cellular and synaptic levels yield key information about the physiological and pathological brain. These studies involve the use of a wide range of modern techniques in molecular biology, genomics, proteomics, imaging and electrophysiology.