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肌酸激酶、能量储备与高血压:从实验室到临床

Creatine kinase, energy reserve, and hypertension: from bench to bedside.

作者信息

Brewster Lizzy M

机构信息

Department of Cardiovascular Disease, Creatine Kinase Foundation, Amsterdam, The Netherlands.

出版信息

Ann Transl Med. 2018 Aug;6(15):292. doi: 10.21037/atm.2018.07.15.

Abstract

We hypothesized that human variation in the activity of the ATP regenerating enzyme creatine kinase (CK) activity affects hypertension and cardiovascular disease risk. CK is tightly bound close to ATP-utilizing enzymes including Ca-ATPase, myosin ATPase, and Na/K-ATPase, where it rapidly regenerates ATP from ADP, H, and phosphocreatine. Thus, relatively high CK was thought to enhance ATP-demanding processes including resistance artery contractility and sodium retention, and reduce ADP-dependent functions. In a series of studies of our group and others, CK was linked to hypertension and bleeding risk. Plasma CK after rest, used as a surrogate measure for tissue CK, was associated with high blood pressure and failure of antihypertensive therapy in case-control and population studies. Importantly, high tissue CK preceded hypertension in animal models and in humans, and human vascular tissue CK gene expression was strongly associated with clinical blood pressure. In line with this, CK inhibition substantially reduced the contractility of human resistance arteries . We also presented evidence that plasma CK reduced ADP-dependent platelet aggregation. In subsequent intervention studies, the oral competitive CK inhibitor beta-guanidinopropionic acid (GPA) reduced blood pressure in spontaneously hypertensive rats (SHRs), and a 1-week trial of sub-therapeutic dose GPA in healthy men was uneventful. Thus, based on theoretical concepts, evidence was gathered in laboratory, case-control, and population studies that high CK is associated with hypertension and with bleeding risk, potentially leading to a new mode of cardiovascular risk reduction with CK inhibition.

摘要

我们推测,人类ATP再生酶肌酸激酶(CK)活性的个体差异会影响高血压和心血管疾病风险。CK紧密结合在包括钙ATP酶、肌球蛋白ATP酶和钠钾ATP酶在内的ATP利用酶附近,在那里它能迅速从ADP、H和磷酸肌酸中再生ATP。因此,相对较高的CK被认为会增强包括阻力动脉收缩性和钠潴留在内的ATP需求过程,并减少ADP依赖性功能。在我们小组和其他研究人员的一系列研究中,CK与高血压和出血风险有关。在病例对照研究和人群研究中,静息后血浆CK作为组织CK的替代指标,与高血压和抗高血压治疗失败相关。重要的是,在动物模型和人类中,高组织CK先于高血压出现,并且人类血管组织CK基因表达与临床血压密切相关。与此一致的是,CK抑制可显著降低人类阻力动脉的收缩性。我们还提供了证据表明血浆CK可减少ADP依赖性血小板聚集。在随后的干预研究中,口服竞争性CK抑制剂β-胍基丙酸(GPA)可降低自发性高血压大鼠(SHR)的血压,并且在健康男性中进行的为期1周的亚治疗剂量GPA试验没有出现不良事件。因此,基于理论概念,在实验室、病例对照和人群研究中收集的证据表明,高CK与高血压和出血风险相关,这可能会导致一种通过抑制CK来降低心血管风险的新模式。

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