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Iron deficiency and raised hepcidin in idiopathic pulmonary arterial hypertension: clinical prevalence, outcomes, and mechanistic insights.特发性肺动脉高压中缺铁和铁调素升高:临床患病率、结局和机制见解。
J Am Coll Cardiol. 2011 Jul 12;58(3):300-9. doi: 10.1016/j.jacc.2011.02.057.
2
Unexplained iron deficiency in idiopathic and heritable pulmonary arterial hypertension.特发性和遗传性肺动脉高压中不明原因的缺铁。
Thorax. 2011 Apr;66(4):326-32. doi: 10.1136/thx.2010.147272. Epub 2011 Feb 5.
3
Pulmonary hypertension-induced GATA4 activation in the right ventricle.肺动脉高压诱导右心室中的 GATA4 激活。
Hypertension. 2010 Dec;56(6):1145-51. doi: 10.1161/HYPERTENSIONAHA.110.160515. Epub 2010 Nov 8.
4
Iron deficiency is common in idiopathic pulmonary arterial hypertension.特发性肺动脉高压患者常伴有缺铁。
Eur Respir J. 2011 Jun;37(6):1386-91. doi: 10.1183/09031936.00100510. Epub 2010 Sep 30.
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SOD and inhaled nitric oxide normalize phosphodiesterase 5 expression and activity in neonatal lambs with persistent pulmonary hypertension.超氧化物歧化酶和吸入性一氧化氮可使持续性肺动脉高压新生羔羊的磷酸二酯酶 5 表达和活性正常化。
Am J Physiol Lung Cell Mol Physiol. 2010 Jul;299(1):L109-16. doi: 10.1152/ajplung.00309.2009. Epub 2010 Apr 16.
6
Antioxidant treatment attenuates pulmonary arterial hypertension-induced heart failure.抗氧化治疗可减轻肺动脉高压引起的心力衰竭。
Am J Physiol Heart Circ Physiol. 2010 Mar;298(3):H1038-47. doi: 10.1152/ajpheart.00097.2009. Epub 2010 Jan 8.
7
Chronic hypoxia augments depolarization-induced Ca2+ sensitization in pulmonary vascular smooth muscle through superoxide-dependent stimulation of RhoA.慢性缺氧通过超氧依赖的 RhoA 刺激增强肺动脉平滑肌的去极化诱导的 Ca2+ 敏化。
Am J Physiol Lung Cell Mol Physiol. 2010 Feb;298(2):L232-42. doi: 10.1152/ajplung.00276.2009. Epub 2009 Nov 6.
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Guidelines for the diagnosis and treatment of pulmonary hypertension: the Task Force for the Diagnosis and Treatment of Pulmonary Hypertension of the European Society of Cardiology (ESC) and the European Respiratory Society (ERS), endorsed by the International Society of Heart and Lung Transplantation (ISHLT).肺动脉高压诊断和治疗指南:欧洲心脏病学会(ESC)和欧洲呼吸学会(ERS)肺动脉高压诊断和治疗工作组,得到国际心肺移植学会(ISHLT)认可。
Eur Heart J. 2009 Oct;30(20):2493-537. doi: 10.1093/eurheartj/ehp297. Epub 2009 Aug 27.
9
Resveratrol prevents monocrotaline-induced pulmonary hypertension in rats.白藜芦醇可预防大鼠由野百合碱诱导的肺动脉高压。
Hypertension. 2009 Sep;54(3):668-75. doi: 10.1161/HYPERTENSIONAHA.109.133397. Epub 2009 Jul 13.
10
NADPH oxidases and reactive oxygen species at different stages of chronic hypoxia-induced pulmonary hypertension in newborn piglets.新生仔猪慢性低氧诱导性肺动脉高压不同阶段的NADPH氧化酶与活性氧物质
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肺高血压中的活性氧和抗氧化剂。

Reactive oxygen species and antioxidants in pulmonary hypertension.

机构信息

Department of Pharmacology and Physiology, Georgetown University Medical Center, Washington, DC 20057, USA.

出版信息

Antioxid Redox Signal. 2013 May 10;18(14):1789-96. doi: 10.1089/ars.2012.4568. Epub 2012 Jul 11.

DOI:10.1089/ars.2012.4568
PMID:22657091
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3619148/
Abstract

SIGNIFICANCE

Pulmonary hypertension is a devastating disorder without any available treatment strategies that satisfactorily promote the survival of patients. The identification of new therapeutic strategies to treat patients with pulmonary hypertension is warranted.

RECENT ADVANCES

Human studies have provided evidence that there is increased oxidative stress (lipid peroxidation, protein oxidation, DNA oxidation, and the depletion of small-molecule antioxidants) in patients with pulmonary hypertension. A variety of compounds with antioxidant properties have been shown to have beneficial therapeutic effects in animal models of pulmonary hypertension, possibly supporting the hypothesis that reactive oxygen species (ROS) are involved in the progression of pulmonary hypertension. Thus, understanding the molecular mechanisms of ROS actions could contribute to the development of optimal, antioxidant-based therapy for human pulmonary hypertension. One such mechanism includes action as a second messenger during cell-signaling events, leading to the growth of pulmonary vascular cells and right ventricular cells.

CRITICAL ISSUES

The molecular mechanisms behind promotion of cell signaling for pulmonary vascular cell growth and right ventricular hypertrophy by ROS are not well understood. Evidence suggests that iron-catalyzed protein carbonylation may be involved.

FUTURE DIRECTIONS

Understanding precise mechanisms of ROS actions should be useful for designing preclinical animal experiments and human clinical trials of the use of antioxidants and/or other redox compounds in the treatment of pulmonary hypertension.

摘要

意义

肺动脉高压是一种破坏性疾病,目前尚无任何治疗策略能够令人满意地提高患者的生存率。有必要寻找新的治疗策略来治疗肺动脉高压患者。

最新进展

人体研究已经提供了证据,表明肺动脉高压患者的氧化应激(脂质过氧化、蛋白质氧化、DNA 氧化和小分子抗氧化剂的消耗)增加。多种具有抗氧化特性的化合物在肺动脉高压动物模型中显示出有益的治疗效果,这可能支持这样一种假设,即活性氧(ROS)参与了肺动脉高压的进展。因此,了解 ROS 作用的分子机制可能有助于开发针对人类肺动脉高压的最佳抗氧化剂治疗方法。其中一种机制是在细胞信号事件中充当第二信使,导致肺血管细胞和右心室细胞的生长。

关键问题

ROS 促进肺血管细胞生长和右心室肥厚的细胞信号转导的分子机制尚不清楚。有证据表明,铁催化的蛋白质羰基化可能与此有关。

未来方向

了解 ROS 作用的确切机制对于设计临床前动物实验和人类临床试验,以评估抗氧化剂和/或其他氧化还原化合物在肺动脉高压治疗中的应用非常有用。