Cellular redox dysfunction in the development of cardiovascular diseases

To meet its exceptionally high energy demands, the heart relies largely on fatty acid oxidation, which then drives the oxidative phosphorylation system in mitochondria. Each day, this system produces about 6kg of ATP to sustain heart function. Fatty acid oxidation is sometimes associated with high r...

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Published inBiochimica et biophysica acta. General subjects Vol. 1861; no. 11; pp. 2822 - 2829
Main Authors Kanaan, Georges N., Harper, Mary-Ellen
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.11.2017
Subjects
adenosine triphosphate
Antioxidants - metabolism
arrhythmia
atherosclerosis
beta oxidation
Cardiac pathologies
Cardiovascular Diseases - genetics
Cardiovascular Diseases - metabolism
Cardiovascular Diseases - pathology
Energy Metabolism
Fatty Acids - metabolism
Glutathione
Heart
heart failure
Humans
hydrogen peroxide
Hydrogen Peroxide - metabolism
hydroxyl radicals
hypertension
hypertrophy
Mitochondria
Mitochondria - metabolism
myocardial ischemia
nitric oxide
Nitric Oxide - metabolism
nitrogen
nitrogen dioxide
Oxidation-Reduction
Oxidative phosphorylation
Oxidative stress
Oxidative Stress - genetics
oxygen
Oxygen - metabolism
reactive nitrogen species
Reactive oxygen species
Reactive Oxygen Species - metabolism
Redox
Signal Transduction
Heart
Oxidative stress
Mitochondria
Reactive oxygen species
Oxidative phosphorylation
Redox
Cardiac pathologies
Glutathione
Online AccessGet full text
ISSN0304-4165
1872-8006
DOI10.1016/j.bbagen.2017.07.027

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Abstract To meet its exceptionally high energy demands, the heart relies largely on fatty acid oxidation, which then drives the oxidative phosphorylation system in mitochondria. Each day, this system produces about 6kg of ATP to sustain heart function. Fatty acid oxidation is sometimes associated with high rates of mitochondrial reactive oxygen species (ROS) production. By definition, ROS are singlet electron intermediates formed during the partial reduction of oxygen to water and they include radical and non-radical intermediates like superoxide, hydrogen peroxide and hydroxyl radical. Superoxide can also interact with nitric oxide to produce peroxynitrite that in turn can give rise to other radical or non-radical reactive nitrogen species (RNS) like nitrogen dioxide, dinitrogen trioxide and others. While mitochondrial and cellular functions can be impaired by ROS if they accumulate, under normal physiological conditions ROS are important signaling molecules in the cardiovascular system. A fine balance between ROS production and antioxidant systems, including glutathione redox, is essential in the heart; otherwise the ensuing damage can contribute to pathogenic processes, which can culminate in endothelial dysfunction, atherosclerosis, hypertension, cardiac hypertrophy, arrhythmias, myocardial ischemia/reperfusion damage, and heart failure. Here we provide a succinct review of recent findings. •Impaired redox mechanisms can lead to excessive production of reactive species.•Reactive species include reactive oxygen species (ROS) and nitrogen species (RNS).•Physiologic levels of reactive species have important signaling functions.•Excessive levels of reactive species contribute to cardiovascular disease development.
AbstractList To meet its exceptionally high energy demands, the heart relies largely on fatty acid oxidation, which then drives the oxidative phosphorylation system in mitochondria. Each day, this system produces about 6kg of ATP to sustain heart function. Fatty acid oxidation is sometimes associated with high rates of mitochondrial reactive oxygen species (ROS) production. By definition, ROS are singlet electron intermediates formed during the partial reduction of oxygen to water and they include radical and non-radical intermediates like superoxide, hydrogen peroxide and hydroxyl radical. Superoxide can also interact with nitric oxide to produce peroxynitrite that in turn can give rise to other radical or non-radical reactive nitrogen species (RNS) like nitrogen dioxide, dinitrogen trioxide and others. While mitochondrial and cellular functions can be impaired by ROS if they accumulate, under normal physiological conditions ROS are important signaling molecules in the cardiovascular system. A fine balance between ROS production and antioxidant systems, including glutathione redox, is essential in the heart; otherwise the ensuing damage can contribute to pathogenic processes, which can culminate in endothelial dysfunction, atherosclerosis, hypertension, cardiac hypertrophy, arrhythmias, myocardial ischemia/reperfusion damage, and heart failure. Here we provide a succinct review of recent findings.
To meet its exceptionally high energy demands, the heart relies largely on fatty acid oxidation, which then drives the oxidative phosphorylation system in mitochondria. Each day, this system produces about 6kg of ATP to sustain heart function. Fatty acid oxidation is sometimes associated with high rates of mitochondrial reactive oxygen species (ROS) production. By definition, ROS are singlet electron intermediates formed during the partial reduction of oxygen to water and they include radical and non-radical intermediates like superoxide, hydrogen peroxide and hydroxyl radical. Superoxide can also interact with nitric oxide to produce peroxynitrite that in turn can give rise to other radical or non-radical reactive nitrogen species (RNS) like nitrogen dioxide, dinitrogen trioxide and others. While mitochondrial and cellular functions can be impaired by ROS if they accumulate, under normal physiological conditions ROS are important signaling molecules in the cardiovascular system. A fine balance between ROS production and antioxidant systems, including glutathione redox, is essential in the heart; otherwise the ensuing damage can contribute to pathogenic processes, which can culminate in endothelial dysfunction, atherosclerosis, hypertension, cardiac hypertrophy, arrhythmias, myocardial ischemia/reperfusion damage, and heart failure. Here we provide a succinct review of recent findings.To meet its exceptionally high energy demands, the heart relies largely on fatty acid oxidation, which then drives the oxidative phosphorylation system in mitochondria. Each day, this system produces about 6kg of ATP to sustain heart function. Fatty acid oxidation is sometimes associated with high rates of mitochondrial reactive oxygen species (ROS) production. By definition, ROS are singlet electron intermediates formed during the partial reduction of oxygen to water and they include radical and non-radical intermediates like superoxide, hydrogen peroxide and hydroxyl radical. Superoxide can also interact with nitric oxide to produce peroxynitrite that in turn can give rise to other radical or non-radical reactive nitrogen species (RNS) like nitrogen dioxide, dinitrogen trioxide and others. While mitochondrial and cellular functions can be impaired by ROS if they accumulate, under normal physiological conditions ROS are important signaling molecules in the cardiovascular system. A fine balance between ROS production and antioxidant systems, including glutathione redox, is essential in the heart; otherwise the ensuing damage can contribute to pathogenic processes, which can culminate in endothelial dysfunction, atherosclerosis, hypertension, cardiac hypertrophy, arrhythmias, myocardial ischemia/reperfusion damage, and heart failure. Here we provide a succinct review of recent findings.
To meet its exceptionally high energy demands, the heart relies largely on fatty acid oxidation, which then drives the oxidative phosphorylation system in mitochondria. Each day, this system produces about 6kg of ATP to sustain heart function. Fatty acid oxidation is sometimes associated with high rates of mitochondrial reactive oxygen species (ROS) production. By definition, ROS are singlet electron intermediates formed during the partial reduction of oxygen to water and they include radical and non-radical intermediates like superoxide, hydrogen peroxide and hydroxyl radical. Superoxide can also interact with nitric oxide to produce peroxynitrite that in turn can give rise to other radical or non-radical reactive nitrogen species (RNS) like nitrogen dioxide, dinitrogen trioxide and others. While mitochondrial and cellular functions can be impaired by ROS if they accumulate, under normal physiological conditions ROS are important signaling molecules in the cardiovascular system. A fine balance between ROS production and antioxidant systems, including glutathione redox, is essential in the heart; otherwise the ensuing damage can contribute to pathogenic processes, which can culminate in endothelial dysfunction, atherosclerosis, hypertension, cardiac hypertrophy, arrhythmias, myocardial ischemia/reperfusion damage, and heart failure. Here we provide a succinct review of recent findings. •Impaired redox mechanisms can lead to excessive production of reactive species.•Reactive species include reactive oxygen species (ROS) and nitrogen species (RNS).•Physiologic levels of reactive species have important signaling functions.•Excessive levels of reactive species contribute to cardiovascular disease development.
Author Kanaan, Georges N.
Harper, Mary-Ellen
Author_xml – sequence: 1
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  surname: Harper
  fullname: Harper, Mary-Ellen
  email: mharper@uottawa.ca
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Issue 11
Keywords Heart
Oxidative stress
Mitochondria
Reactive oxygen species
Oxidative phosphorylation
Redox
Cardiac pathologies
Glutathione
Language English
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Snippet To meet its exceptionally high energy demands, the heart relies largely on fatty acid oxidation, which then drives the oxidative phosphorylation system in...
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SubjectTerms adenosine triphosphate
Antioxidants - metabolism
arrhythmia
atherosclerosis
beta oxidation
Cardiac pathologies
Cardiovascular Diseases - genetics
Cardiovascular Diseases - metabolism
Cardiovascular Diseases - pathology
Energy Metabolism
Fatty Acids - metabolism
Glutathione
Heart
heart failure
Humans
hydrogen peroxide
Hydrogen Peroxide - metabolism
hydroxyl radicals
hypertension
hypertrophy
Mitochondria
Mitochondria - metabolism
myocardial ischemia
nitric oxide
Nitric Oxide - metabolism
nitrogen
nitrogen dioxide
Oxidation-Reduction
Oxidative phosphorylation
Oxidative stress
Oxidative Stress - genetics
oxygen
Oxygen - metabolism
reactive nitrogen species
Reactive oxygen species
Reactive Oxygen Species - metabolism
Redox
Signal Transduction
Title Cellular redox dysfunction in the development of cardiovascular diseases
URI https://dx.doi.org/10.1016/j.bbagen.2017.07.027
https://www.ncbi.nlm.nih.gov/pubmed/28778485
https://www.proquest.com/docview/1926685945
https://www.proquest.com/docview/2020866694
Volume 1861
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