含有 KCNJ8/ABCC9 的 K-ATP 通道调节脑血管平滑肌发育和神经血管耦联。

KCNJ8/ABCC9-containing K-ATP channel modulates brain vascular smooth muscle development and neurovascular coupling.

机构信息

Department of Immunology, Genetics and Pathology, Rudbeck Laboratory, Uppsala University, Dag Hammarskjölds väg 20, 751 85 Uppsala, Sweden; Department of Molecular Pathophysiology, Institute of Advanced Medical Science, Nippon Medical School, 1-1-5 Sendagi Bunkyo-ku, Tokyo 113-8602, Japan; Department of Regenerative Medicine and Tissue Engineering, National Cerebral and Cardiovascular Center Research Institute, 6-1 Kishibe-Shinmachi, Suita, Osaka 564-8565, Japan.

Department of Neurology, Yale School of Medicine, New Haven, CT, USA.

出版信息

Dev Cell. 2022 Jun 6;57(11):1383-1399.e7. doi: 10.1016/j.devcel.2022.04.019. Epub 2022 May 18.

DOI:10.1016/j.devcel.2022.04.019

PMID:35588738

Abstract

Loss- or gain-of-function mutations in ATP-sensitive potassium channel (K-ATP)-encoding genes, KCNJ8 and ABCC9, cause human central nervous system disorders with unknown pathogenesis. Here, using mice, zebrafish, and cell culture models, we investigated cellular and molecular causes of brain dysfunctions derived from altered K-ATP channel function. We show that genetic/chemical inhibition or activation of KCNJ8/ABCC9-containing K-ATP channel function leads to brain-selective suppression or promotion of arterial/arteriolar vascular smooth muscle cell (VSMC) differentiation, respectively. We further show that brain VSMCs develop from KCNJ8/ABCC9-containing K-ATP channel-expressing mural cell progenitor and that K-ATP channel cell autonomously regulates VSMC differentiation through modulation of intracellular Ca oscillation via voltage-dependent calcium channels. Consistent with defective VSMC development, Kcnj8 knockout mice showed deficiency in vasoconstrictive capacity and neuronal-evoked vasodilation leading to local hyperemia. Our results demonstrate a role for KCNJ8/ABCC9-containing K-ATP channels in the differentiation of brain VSMC, which in turn is necessary for fine-tuning of cerebral blood flow.

摘要

ATP 敏感性钾通道（K-ATP）编码基因 KCNJ8 和 ABCC9 的功能丧失或获得性突变导致人类中枢神经系统疾病，但发病机制尚不清楚。在这里，我们使用小鼠、斑马鱼和细胞培养模型，研究了源自 K-ATP 通道功能改变的大脑功能障碍的细胞和分子原因。我们表明，KCNJ8/ABCC9 含 K-ATP 通道功能的遗传/化学抑制或激活分别导致脑选择性抑制或促进动脉/小动脉血管平滑肌细胞（VSMC）分化。我们进一步表明，脑 VSMC 来源于表达 KCNJ8/ABCC9 含 K-ATP 通道的壁细胞祖细胞，并且 K-ATP 通道通过通过电压依赖性钙通道调节细胞内 Ca 振荡来自主调节 VSMC 分化。与 VSMC 发育缺陷一致，Kcnj8 基因敲除小鼠表现出血管收缩能力和神经元诱发的血管舒张缺陷，导致局部充血。我们的研究结果表明 KCNJ8/ABCC9 含 K-ATP 通道在脑 VSMC 分化中的作用，而脑 VSMC 分化对于脑血流的精细调节是必需的。

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含有 KCNJ8/ABCC9 的 K-ATP 通道调节脑血管平滑肌发育和神经血管耦联。

KCNJ8/ABCC9-containing K-ATP channel modulates brain vascular smooth muscle development and neurovascular coupling.

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