Department of Biology, MSU-BIT University, Shenzhen, Guangdong Province, China.
Department of Biology, Moscow Lomonosov University, Moscow, Russia.
Biochem Biophys Res Commun. 2024 Jun 25;714:149947. doi: 10.1016/j.bbrc.2024.149947. Epub 2024 Apr 16.
Here, we characterized the p.Arg583His (R583H) Kv7.1 mutation, identified in two unrelated families suffered from LQT syndrome. This mutation is located in the HС-HD linker of the cytoplasmic portion of the Kv7.1 channel. This linker, together with HD helix are responsible for binding the A-kinase anchoring protein 9 (AKAP9), Yotiao. We studied the electrophysiological characteristics of the mutated channel expressed in CHO-K1 along with KCNE1 subunit and Yotiao protein, using the whole-cell patch-clamp technique. We found that R583H mutation, even at the heterozygous state, impedes I activation. Molecular modeling showed that HС and HD helixes of the C-terminal part of Kv7.1 channel are swapped along the C-terminus length of the channel and that R583 position is exposed to the outer surface of HC-HD tandem coiled-coil. Interestingly, the adenylate cyclase activator, forskolin had a smaller effect on the mutant channel comparing with the WT protein, suggesting that R583H mutation may disrupt the interaction of the channel with the adaptor protein Yotiao and, therefore, may impair phosphorylation of the KCNQ1 channel.
在这里,我们对两个无关的 LQT 综合征家族中发现的 Kv7.1 突变 p.Arg583His(R583H)进行了特征描述。该突变位于 Kv7.1 通道细胞质部分 HC-HD 连接区。该连接区与 HD 螺旋共同负责结合蛋白激酶锚定蛋白 9(AKAP9)和 Yotiao。我们使用全细胞膜片钳技术,研究了在 CHO-K1 细胞中与 KCNE1 亚基和 Yotiao 蛋白共表达的突变通道的电生理特性。我们发现,即使在杂合状态下,R583H 突变也会阻碍 I 激活。分子建模表明,Kv7.1 通道 C 末端 HC 和 HD 螺旋沿着通道 C 末端长度发生交换,R583 位置暴露于 HC-HD 串联卷曲螺旋的外表面。有趣的是,与 WT 蛋白相比,腺苷酸环化酶激活剂 forskolin 对突变通道的作用较小,表明 R583H 突变可能破坏了通道与衔接蛋白 Yotiao 的相互作用,从而可能损害 KCNQ1 通道的磷酸化。
