Mitochondrial ATP Production is Required for Endothelial Cell Control of Vascular Tone.

IF 5.1 Q2 CELL BIOLOGY
Calum Wilson, Matthew D Lee, Charlotte Buckley, Xun Zhang, John G McCarron
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引用次数: 8

Abstract

Arteries and veins are lined by nonproliferating endothelial cells that play a critical role in regulating blood flow. Endothelial cells also regulate tissue perfusion, metabolite exchange, and thrombosis. It is thought that endothelial cells rely on ATP generated via glycolysis, rather than mitochondrial oxidative phosphorylation, to fuel each of these energy-demanding processes. However, endothelial metabolism has mainly been studied in the context of proliferative cells, and little is known about energy production in endothelial cells within the fully formed vascular wall. Using intact arteries isolated from rats and mice, we show that inhibiting mitochondrial respiration disrupts endothelial control of vascular tone. Basal, mechanically activated, and agonist-evoked calcium activity in intact artery endothelial cells are each prevented by inhibiting mitochondrial ATP synthesis. Agonist-evoked calcium activity was also inhibited by blocking the transport of pyruvate, the master fuel for mitochondrial energy production, through the mitochondrial pyruvate carrier. The role for mitochondria in endothelial cell energy production is independent of species, sex, or vascular bed. These data show that a mitochondrial ATP supply is necessary for calcium-dependent, nitric oxide-mediated endothelial control of vascular tone, and identifies the critical role of endothelial mitochondrial energy production in fueling perfused blood vessel function.

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线粒体ATP的产生是内皮细胞控制血管张力所必需的。
动脉和静脉由非增殖的内皮细胞排列,这些细胞在调节血液流动中起着关键作用。内皮细胞也调节组织灌注、代谢物交换和血栓形成。人们认为内皮细胞依靠糖酵解产生的ATP,而不是线粒体氧化磷酸化,来为这些需要能量的过程提供能量。然而,内皮代谢主要是在增殖细胞的背景下研究的,对于完全形成的血管壁内内皮细胞的能量产生知之甚少。使用从大鼠和小鼠分离的完整动脉,我们发现抑制线粒体呼吸会破坏血管张力的内皮控制。在完整的动脉内皮细胞中,基础的、机械激活的和激动剂诱发的钙活性都可以通过抑制线粒体ATP合成来阻止。激动剂引起的钙活性也被阻断了丙酮酸的运输,丙酮酸是线粒体能量生产的主要燃料,通过线粒体丙酮酸载体。线粒体在内皮细胞能量产生中的作用与物种、性别或血管床无关。这些数据表明,线粒体ATP供应对于钙依赖性、一氧化氮介导的血管张力的内皮控制是必要的,并确定了内皮线粒体能量产生在促进灌注血管功能中的关键作用。
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来源期刊
CiteScore
5.70
自引率
0.00%
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0
审稿时长
3 weeks
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