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多种机制介导一氧化碳对电压门控钾通道 Kv1.5 的抑制作用。

Multiple mechanisms mediating carbon monoxide inhibition of the voltage-gated K channel Kv1.5.

机构信息

Division of Cardiovascular and Diabetes Research, LICAMM, Faculty of Medicine and Health, Faculty of Biological Sciences, University of Leeds, Leeds LS2 9JT, UK.

School of Biomedical Sciences, Faculty of Biological Sciences, University of Leeds, Leeds LS2 9JT, UK.

出版信息

Cell Death Dis. 2017 Nov 2;8(11):e3163. doi: 10.1038/cddis.2017.568.

DOI:10.1038/cddis.2017.568
PMID:29095440
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5775415/
Abstract

The voltage-gated K channel has key roles in the vasculature and in atrial excitability and contributes to apoptosis in various tissues. In this study, we have explored its regulation by carbon monoxide (CO), a product of the cytoprotective heme oxygenase enzymes, and a recognized toxin. CO inhibited recombinant Kv1.5 expressed in HEK293 cells in a concentration-dependent manner that involved multiple signalling pathways. CO inhibition was partially reversed by superoxide dismutase mimetics and by suppression of mitochondrial reactive oxygen species. CO also elevated intracellular nitric oxide (NO) levels. Prevention of NO formation also partially reversed CO inhibition of Kv1.5, as did inhibition of soluble guanylyl cyclase. CO also elevated intracellular peroxynitrite levels, and a peroxynitrite scavenger markedly attenuated the ability of CO to inhibit Kv1.5. CO caused nitrosylation of Kv1.5, an effect that was also observed in C331A and C346A mutant forms of the channel, which had previously been suggested as nitrosylation sites within Kv1.5. Augmentation of Kv1.5 via exposure to hydrogen peroxide was fully reversed by CO. Native Kv1.5 recorded in HL-1 murine atrial cells was also inhibited by CO. Action potentials recorded in HL-1 cells were increased in amplitude and duration by CO, an effect mimicked and occluded by pharmacological inhibition of Kv1.5. Our data indicate that Kv1.5 is a target for modulation by CO via multiple mechanisms. This regulation has important implications for diverse cellular functions, including excitability, contractility and apoptosis.

摘要

电压门控钾通道在血管系统和心房兴奋性中起关键作用,并促进各种组织的细胞凋亡。在这项研究中,我们探索了一氧化碳(CO)对其的调节作用,CO 是细胞保护血红素加氧酶产生的一种产物,也是一种公认的毒素。CO 以浓度依赖的方式抑制重组 Kv1.5 在 HEK293 细胞中的表达,涉及多种信号通路。CO 抑制作用可被超氧化物歧化酶模拟物部分逆转,并可抑制线粒体活性氧的产生。CO 还可升高细胞内一氧化氮(NO)水平。NO 形成的抑制作用也部分逆转了 CO 对 Kv1.5 的抑制作用,可溶性鸟苷酸环化酶的抑制作用也是如此。CO 还可升高细胞内过氧亚硝酸盐水平,而过氧亚硝酸盐清除剂可显著减弱 CO 抑制 Kv1.5 的能力。CO 导致 Kv1.5 的硝化,这一效应也在先前被认为是 Kv1.5 硝化位点的 C331A 和 C346A 突变体形式中观察到。暴露于过氧化氢可使 Kv1.5 增加,CO 可完全逆转这一作用。HL-1 鼠心房细胞中记录的天然 Kv1.5 也被 CO 抑制。CO 可增加 HL-1 细胞中记录的动作电位的幅度和持续时间,该作用可被 Kv1.5 的药理学抑制作用模拟和阻断。我们的数据表明,Kv1.5 是 CO 通过多种机制调节的靶标。这种调节对多种细胞功能具有重要意义,包括兴奋性、收缩性和细胞凋亡。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5759/5775415/aa73621f5afc/cddis2017568f8.jpg
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