氧敏感钾离子通道基因转移赋予早产兔和重塑的人类动脉导管氧反应性：对动脉导管未闭婴儿的意义。

Oxygen-sensitive Kv channel gene transfer confers oxygen responsiveness to preterm rabbit and remodeled human ductus arteriosus: implications for infants with patent ductus arteriosus.

作者信息

Thébaud Bernard, Michelakis Evangelos D, Wu Xi-Chen, Moudgil Rohit, Kuzyk Michael, Dyck Jason R B, Harry Gwyneth, Hashimoto Kyoko, Haromy Alois, Rebeyka Ivan, Archer Stephen L

机构信息

Vascular Biology Group, University of Alberta, Edmonton, Alberta, Canada.

出版信息

Circulation. 2004 Sep 14;110(11):1372-9. doi: 10.1161/01.CIR.0000141292.28616.65. Epub 2004 Sep 7.

DOI:10.1161/01.CIR.0000141292.28616.65

PMID:15353504

Abstract

BACKGROUND

Oxygen (O2)-sensitive K+ channels mediate acute O2 sensing in many tissues. At birth, initial functional closure of the ductus arteriosus (DA) results from O2-induced vasoconstriction. This mechanism often fails in premature infants, resulting in persistent DA, a common form of congenital heart disease. We hypothesized that the basis for impaired O2 constriction in preterm DA is reduced expression and function of O2-sensitive, voltage-gated (Kv) channels.

METHODS AND RESULTS

Preterm rabbit DA rings have reduced O2 constriction (even after inhibition of prostaglandin and nitric oxide synthases), and preterm DA smooth muscle cells (DASMCs) display reduced O2-sensitive K+ current. This is associated with decreased mRNA and protein expression of certain O2-sensitive Kv channels (Kv1.5 and Kv2.1) but equivalent expression of the L-type calcium channel. Transmural Kv1.5 or Kv2.1 gene transfer "rescues" the developmental deficiency, conferring O2 responsiveness to preterm rabbit DAs. Targeted SMC Kv1.5 gene transfer also enhances O2 constriction in human DAs.

CONCLUSIONS

These data demonstrate a central role for developmentally regulated DASMC O2-sensitive Kv channels in the functional closure of the DA. Modulation of Kv channels may have therapeutic potential in diseases associated with impaired O2 responsiveness, including persistent DA.

摘要

背景

氧（O₂）敏感的钾通道介导许多组织中的急性氧感知。出生时，动脉导管（DA）的初始功能性关闭是由氧诱导的血管收缩引起的。这种机制在早产儿中常常失效，导致动脉导管持续存在，这是一种常见的先天性心脏病形式。我们假设早产动脉导管中氧收缩受损的基础是氧敏感的电压门控（Kv）通道的表达和功能降低。

方法与结果

早产兔的动脉导管环氧收缩能力降低（即使在抑制前列腺素和一氧化氮合酶之后），并且早产动脉导管平滑肌细胞（DASMCs）的氧敏感钾电流降低。这与某些氧敏感的Kv通道（Kv1.5和Kv2.1）的mRNA和蛋白质表达降低有关，但L型钙通道的表达相当。跨膜Kv1.5或Kv2.1基因转移“挽救”了发育缺陷，赋予早产兔动脉导管对氧的反应性。靶向平滑肌细胞Kv1.5基因转移也增强了人动脉导管的氧收缩能力。

结论

这些数据表明，发育调控的动脉导管平滑肌细胞氧敏感Kv通道在动脉导管的功能性关闭中起核心作用。Kv通道的调节在与氧反应性受损相关的疾病（包括动脉导管持续存在）中可能具有治疗潜力。

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氧敏感钾离子通道基因转移赋予早产兔和重塑的人类动脉导管氧反应性：对动脉导管未闭婴儿的意义。

Oxygen-sensitive Kv channel gene transfer confers oxygen responsiveness to preterm rabbit and remodeled human ductus arteriosus: implications for infants with patent ductus arteriosus.

作者信息

机构信息

出版信息

BACKGROUND

METHODS AND RESULTS

CONCLUSIONS

背景

方法与结果

结论

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