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血管平滑肌 Kir6.1 功能获得导致的低血压。

Hypotension due to Kir6.1 gain-of-function in vascular smooth muscle.

机构信息

Department of Cell Biology and Physiology, Washington University School of Medicine, 660 South Euclid Avenue, St. Louis, MO.

出版信息

J Am Heart Assoc. 2013 Aug 23;2(4):e000365. doi: 10.1161/JAHA.113.000365.

DOI:10.1161/JAHA.113.000365
PMID:23974906
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3828800/
Abstract

BACKGROUND

KATP channels, assembled from pore-forming (Kir6.1 or Kir6.2) and regulatory (SUR1 or SUR2) subunits, link metabolism to excitability. Loss of Kir6.2 results in hypoglycemia and hyperinsulinemia, whereas loss of Kir6.1 causes Prinzmetal angina-like symptoms in mice. Conversely, overactivity of Kir6.2 induces neonatal diabetes in mice and humans, but consequences of Kir6.1 overactivity are unknown.

METHODS AND RESULTS

We generated transgenic mice expressing wild-type (WT), ATP-insensitive Kir6.1 [Gly343Asp] (GD), and ATP-insensitive Kir6.1 [Gly343Asp,Gln53Arg] (GD-QR) subunits, under Cre-recombinase control. Expression was induced in smooth muscle cells by crossing with smooth muscle myosin heavy chain promoter-driven tamoxifen-inducible Cre-recombinase (SMMHC-Cre-ER) mice. Three weeks after tamoxifen induction, we assessed blood pressure in anesthetized and conscious animals, as well as contractility of mesenteric artery smooth muscle and KATP currents in isolated mesenteric artery myocytes. Both systolic and diastolic blood pressures were significantly reduced in GD and GD-QR mice but normal in mice expressing the WT transgene and elevated in Kir6.1 knockout mice as well as in mice expressing dominant-negative Kir6.1 [AAA] in smooth muscle. Contractile response of isolated GD-QR mesenteric arteries was blunted relative to WT controls, but nitroprusside relaxation was unaffected. Basal KATP conductance and pinacidil-activated conductance were elevated in GD but not in WT myocytes.

CONCLUSIONS

KATP overactivity in vascular muscle can lead directly to reduced vascular contractility and lower blood pressure. We predict that gain of vascular KATP function in humans would lead to a chronic vasodilatory phenotype, as indeed has recently been demonstrated in Cantu syndrome.

摘要

背景

由孔形成(Kir6.1 或 Kir6.2)和调节(SUR1 或 SUR2)亚基组成的 KATP 通道将代谢与兴奋性联系起来。Kir6.2 的缺失导致低血糖和高胰岛素血症,而 Kir6.1 的缺失导致小鼠出现类似变异型心绞痛的症状。相反,Kir6.2 的过度活跃会导致小鼠和人类的新生儿糖尿病,但 Kir6.1 过度活跃的后果尚不清楚。

方法和结果

我们生成了表达野生型(WT)、ATP 不敏感 Kir6.1 [Gly343Asp](GD)和 ATP 不敏感 Kir6.1 [Gly343Asp,Gln53Arg](GD-QR)亚基的转基因小鼠,这些亚基受 Cre 重组酶控制。通过与平滑肌肌球蛋白重链启动子驱动的他莫昔芬诱导型 Cre 重组酶(SMMHC-Cre-ER)小鼠杂交,在平滑肌细胞中表达。在他莫昔芬诱导后 3 周,我们在麻醉和清醒动物中评估血压,以及肠系膜动脉平滑肌的收缩性和分离的肠系膜动脉心肌细胞中的 KATP 电流。GD 和 GD-QR 小鼠的收缩压和舒张压均显著降低,但 WT 转基因小鼠正常,Kir6.1 敲除小鼠以及在平滑肌中表达显性负性 Kir6.1 [AAA]的小鼠升高。与 WT 对照相比,分离的 GD-QR 肠系膜动脉的收缩反应减弱,但硝普钠松弛不受影响。GD 中的基础 KATP 电导和烟碱激活的电导升高,但 WT 心肌细胞中没有升高。

结论

血管肌中的 KATP 过度活跃可直接导致血管收缩性降低和血压降低。我们预测,人类血管 KATP 功能的增加会导致慢性血管扩张表型,正如最近在 Cantu 综合征中所证明的那样。

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