School of Health and Kinesiology, University of Nebraska at Omaha, Omaha, Nebraska.
Department of Health and Exercise Science, University of Oklahoma, Norman, Oklahoma.
Am J Physiol Heart Circ Physiol. 2020 Aug 1;319(2):H456-H467. doi: 10.1152/ajpheart.00235.2020. Epub 2020 Jul 24.
Peripheral artery disease (PAD) is a manifestation of atherosclerosis in the leg arteries, which causes claudication. This may be in part due to vascular mitochondrial dysfunction and excessive reactive oxygen species (ROS) production. A mitochondrial-targeted antioxidant (MitoQ) has been shown to improve vascular mitochondrial function that, in turn, led to improved vascular function in older adults and animal models. However, the roles of vascular mitochondria in vascular function including endothelial function and arterial stiffness in patients with PAD are unknown; therefore, with the use of acute MitoQ intake, this study examined the roles of vascular mitochondria in endothelial function, arterial stiffness, exercise tolerance, and skeletal muscle function in patients with PAD. Eleven patients with PAD received either MitoQ or placebo in a randomized crossover design. At each visit, blood samples, brachial and popliteal artery flow-mediated dilation (FMD), peripheral and central pulse-wave velocity (PWV), blood pressure (BP), maximal walking capacity, time to claudication (COT), and oxygen utility capacity were measured pre- and-post-MitoQ and placebo. There were significant group by time interactions ( < 0.05) for brachial and popliteal FMD that both increased by Δ2.6 and Δ3.3%, respectively, and increases superoxide dismutase (Δ0.03 U/mL), maximal walking time (Δ73.8 s), maximal walking distance (Δ49.3 m), and COT (Δ44.2 s). There were no changes in resting heart rate, BP, malondialdehyde, total antioxidant capacity, PWV, or oxygen utility capacity ( > 0.05). MitoQ intake may be an effective strategy for targeting the vascular mitochondrial environment, which may be useful for restoring endothelial function, leg pain, and walking time in patients with PAD. The results of this study reveal for the first time that acute oral intake of mitochondrial-targeted antioxidant (MitoQ, 80 mg) is effective for improving vascular endothelial function and superoxide dismutase in patients with peripheral artery disease (PAD). Acute MitoQ intake is also effective for improving maximal walking capacity and delaying the onset of claudication in patients with PAD. These findings suggest that the acute oral intake of MitoQ-mediated improvements in vascular mitochondria play a pivotal role for improving endothelial function, the redox environment, and skeletal muscle performance in PAD.
外周动脉疾病 (PAD) 是腿部动脉粥样硬化的表现形式,会导致跛行。这可能部分归因于血管线粒体功能障碍和活性氧 (ROS) 产生过多。已经证明,靶向线粒体的抗氧化剂 (MitoQ) 可改善血管线粒体功能,进而改善老年人和动物模型的血管功能。然而,血管线粒体在包括 PAD 患者内皮功能和动脉僵硬度在内的血管功能中的作用尚不清楚;因此,本研究使用急性 MitoQ 摄入来研究血管线粒体在外周动脉疾病患者的内皮功能、动脉僵硬度、运动耐量和骨骼肌功能中的作用。11 名 PAD 患者以随机交叉设计接受 MitoQ 或安慰剂治疗。在每次就诊时,测量血液样本、肱动脉和腘动脉血流介导的扩张 (FMD)、外周和中心脉搏波速度 (PWV)、血压 (BP)、最大步行能力、跛行时间 (COT) 和氧气利用能力,在 MitoQ 和安慰剂治疗前后进行测量。肱动脉和腘动脉 FMD 均有显著的组间时间交互作用 ( < 0.05),分别增加了 2.6%和 3.3%,超氧化物歧化酶 (Δ0.03 U/mL)、最大步行时间 (Δ73.8 s)、最大步行距离 (Δ49.3 m) 和 COT (Δ44.2 s) 也增加了。静息心率、BP、丙二醛、总抗氧化能力、PWV 或氧气利用能力无变化 ( > 0.05)。MitoQ 摄入可能是一种靶向血管线粒体环境的有效策略,可能有助于恢复 PAD 患者的内皮功能、腿部疼痛和步行时间。本研究首次表明,急性口服靶向线粒体的抗氧化剂 (MitoQ,80mg) 可有效改善外周动脉疾病 (PAD) 患者的血管内皮功能和超氧化物歧化酶。急性 MitoQ 摄入还可有效改善 PAD 患者的最大步行能力并延迟跛行发作。这些发现表明,MitoQ 介导的血管线粒体急性口服改善在改善 PAD 患者的内皮功能、氧化还原环境和骨骼肌性能方面发挥着关键作用。
