缺氧通过开放三磷酸腺苷敏感性钾通道促进心房性快速性心律失常。

Hypoxia Promotes Atrial Tachyarrhythmias via Opening of ATP-Sensitive Potassium Channels.

机构信息

William Harvey Research Institute, Barts and the London School of Medicine and Dentistry, Queen Mary University of London, United Kingdom (M.J.S., Q.A., Y.L., N.A.A., L.O., K.-E.N., A.M.T., M.C.F., R.J.S., A.T.).

Institute of Cardiovascular Science, University College London, United Kingdom (P.D.L.).

出版信息

Circ Arrhythm Electrophysiol. 2023 Sep;16(9):e011870. doi: 10.1161/CIRCEP.123.011870. Epub 2023 Aug 30.

DOI:10.1161/CIRCEP.123.011870

PMID:37646176

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10510820/

Abstract

BACKGROUND

Hypoxia-ischemia predisposes to atrial arrhythmia. Atrial ATP-sensitive potassium channel (K) modulation during hypoxia has not been explored. We investigated the effects of hypoxia on atrial electrophysiology in mice with global deletion of K pore-forming subunits.

METHODS

Whole heart K RNA expression was probed. Whole-cell K current and action potentials were recorded in isolated wild-type (WT), Kir6.1 global knockout (6.1-gKO), and Kir6.2 global knockout (6.2-gKO) murine atrial myocytes. Langendorff-perfused hearts were assessed for atrial effective refractory period (ERP), conduction velocity, wavefront path length (WFPL), and arrhymogenicity under normoxia/hypoxia using a microelectrode array and programmed electrical stimulation. Heart histology was assessed.

RESULTS

Expression patterns were essentially identical for all K subunit RNA across human heart, whereas in mouse, Kir6.1 and SUR2 (sulphonylurea receptor subunit) were higher in ventricle than atrium, and Kir6.2 and SUR1 were higher in atrium. Compared with WT, 6.2-gKO atrial myocytes had reduced tolbutamide-sensitive current and action potentials were more depolarized with slower upstroke and reduced peak amplitude. Action potential duration was prolonged in 6.1-gKO atrial myocytes, absent of changes in other ion channel gene expression or atrial myocyte hypertrophy. In Langendorff-perfused hearts, baseline atrial ERP was prolonged and conduction velocity reduced in both K knockout mice compared with WT, without histological fibrosis. Compared with baseline, hypoxia led to conduction velocity slowing, stable ERP, and WFPL shortening in WT and 6.1-gKO hearts, whereas WFPL was stable in 6.2-gKO hearts due to ERP prolongation with conduction velocity slowing. Tolbutamide reversed hypoxia-induced WFPL shortening in WT and 6.1-gKO hearts through ERP prolongation. Atrial tachyarrhythmias inducible with programmed electrical stimulation during hypoxia in WT and 6.1-gKO mice correlated with WFPL shortening. Spontaneous arrhythmia was not seen.

CONCLUSIONS

K block/absence leads to cellular and tissue level atrial electrophysiological modification. Kir6.2 global knockout prevents hypoxia-induced atrial WFPL shortening and atrial arrhythmogenicity to programmed electrical stimulation. This mechanism could be explored translationally to treat ischemically driven atrial arrhythmia.

摘要

背景

缺氧缺血使心房性心律失常易于发生。在缺氧时，心房三磷酸腺苷敏感性钾通道（K）的调节尚未被研究。我们研究了在整体缺失 K 孔形成亚基的小鼠中，缺氧对心房电生理的影响。

方法

探测全心脏 K RNA 的表达。在分离的野生型（WT）、Kir6.1 全局敲除（6.1-gKO）和 Kir6.2 全局敲除（6.2-gKO）小鼠心房肌细胞中记录全细胞 K 电流和动作电位。使用微电极阵列和程控电刺激，在 Langendorff 灌流心脏中评估正常氧合/缺氧下的心房有效不应期（ERP）、传导速度、波前路径长度（WFPL）和致心律失常性。评估心脏组织学。

结果

人类心脏的所有 K 亚基 RNA 的表达模式基本相同，而在小鼠中，Kir6.1 和 SUR2（磺酰脲受体亚基）在心室中的表达高于心房，而 Kir6.2 和 SUR1 在心房中的表达高于心室。与 WT 相比，6.2-gKO 心房肌细胞的甲苯磺丁脲敏感电流减少，动作电位更去极化，上升速度更慢，峰值幅度降低。6.1-gKO 心房肌细胞的动作电位时程延长，其他离子通道基因表达或心房肌细胞肥大无变化。在 Langendorff 灌流心脏中，与 WT 相比，两种 K 敲除小鼠的基础心房 ERP 延长，传导速度降低，而无组织纤维化。与基础状态相比，缺氧导致 WT 和 6.1-gKO 心脏的传导速度减慢，ERP 稳定，WFPL 缩短，而由于传导速度减慢导致 ERP 延长，6.2-gKO 心脏的 WFPL 保持稳定。甲苯磺丁脲通过延长 ERP 逆转了 WT 和 6.1-gKO 心脏缺氧诱导的 WFPL 缩短。在 WT 和 6.1-gKO 小鼠缺氧期间用程控电刺激诱导的心房性心动过速与 WFPL 缩短相关。未观察到自发性心律失常。

结论

K 阻断/缺失导致细胞和组织水平的心房电生理改变。Kir6.2 全局敲除可防止缺氧诱导的 WFPL 缩短和程序性电刺激引起的心房致心律失常性。这种机制可以在翻译水平上被探索来治疗由缺血引起的心房性心律失常。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8cf0/10510820/a46cc295916b/hae-16-e011870-g001.jpg

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缺氧通过开放三磷酸腺苷敏感性钾通道促进心房性快速性心律失常。

Hypoxia Promotes Atrial Tachyarrhythmias via Opening of ATP-Sensitive Potassium Channels.

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出版信息

BACKGROUND

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CONCLUSIONS

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