HZE 56Fe-Ion Irradiation Induces Endothelial Dysfunction in Rat Aorta: Role of Xanthine Oxidase

Ionizing radiation has been implicated in the development of significant cardiovascular complications. Since radiation exposure is associated with space exploration, astronauts are potentially at increased risk of accelerated cardiovascular disease. This study investigated the effect of high atomic...

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Published in:Radiation research 2011-10, Vol.176 (4), p.474-485
Main Authors: Soucy, Kevin G., Lim, Hyun Kyo, Kim, Jae Hyung, Oh, Young, Attarzadeh, David O., Sevinc, Baris, Kuo, Maggie M., Shoukas, Artin A., Vazquez, Marcelo E., Berkowitz, Dan E.
Format: Article
Language:English
Subjects:
Animals
Aorta
Aorta - drug effects
Aorta - pathology
Aorta - radiation effects
Biomechanical Phenomena
Dose response relationship
Endothelium, Vascular - drug effects
Endothelium, Vascular - enzymology
Endothelium, Vascular - metabolism
Endothelium, Vascular - radiation effects
Enzyme Inhibitors - pharmacology
Fluorescence
Ionizing radiation
Iron - adverse effects
Irradiation
Male
Nitric Oxide - biosynthesis
Oxypurinol - pharmacology
Radiation dosage
Rats
Rats, Wistar
Reactive Oxygen Species - metabolism
REGULAR ARTICLES
Space life sciences
Time Factors
Vascular stiffness
Vasodilation
Whole-Body Irradiation - adverse effects
Xanthine Oxidase - antagonists & inhibitors
Xanthine Oxidase - metabolism
Xanthines
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container_issue 4
container_start_page 474
container_title Radiation research
container_volume 176
creator Soucy, Kevin G.
Lim, Hyun Kyo
Kim, Jae Hyung
Oh, Young
Attarzadeh, David O.
Sevinc, Baris
Kuo, Maggie M.
Shoukas, Artin A.
Vazquez, Marcelo E.
Berkowitz, Dan E.
description Ionizing radiation has been implicated in the development of significant cardiovascular complications. Since radiation exposure is associated with space exploration, astronauts are potentially at increased risk of accelerated cardiovascular disease. This study investigated the effect of high atomic number, high-energy (HZE) iron-ion radiation on vascular and endothelial function as a model of space radiation. Rats were exposed to a single whole-body dose of iron-ion radiation at doses of 0, 0.5 or 1 Gy. In vivo aortic stiffness and ex vivo aortic tension responses were measured 6 and 8 months after exposure as indicators of chronic vascular injury. Rats exposed to 1 Gy iron ions demonstrated significantly increased aortic stiffness, as measured by pulse wave velocity. Aortic rings from irradiated rats exhibited impaired endothelial-dependent relaxation consistent with endothelial dysfunction. Acute xanthine oxidase (XO) inhibition or reactive oxygen species (ROS) scavenging restored endothelial-dependent responses to normal. In addition, XO activity was significantly elevated in rat aorta 4 months after whole-body irradiation. Furthermore, XO inhibition, initiated immediately after radiation exposure and continued until euthanasia, completely inhibited radiation-dependent XO activation. ROS production was elevated after 1 Gy irradiation while production of nitric oxide (NO) was significantly impaired. XO inhibition restored NO and ROS production. Finally, dietary XO inhibition preserved normal endothelial function and vascular stiffness after radiation exposure. These results demonstrate that radiation induced XO-dependent ROS production and nitroso-redox imbalance, leading to chronic vascular dysfunction. As a result, XO is a potential target for radioprotection. Enhancing the understanding of vascular radiation injury could lead to the development of effective methods to ameliorate radiation-induced vascular damage.
doi_str_mv 10.1667/RR2598.1
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Since radiation exposure is associated with space exploration, astronauts are potentially at increased risk of accelerated cardiovascular disease. This study investigated the effect of high atomic number, high-energy (HZE) iron-ion radiation on vascular and endothelial function as a model of space radiation. Rats were exposed to a single whole-body dose of iron-ion radiation at doses of 0, 0.5 or 1 Gy. In vivo aortic stiffness and ex vivo aortic tension responses were measured 6 and 8 months after exposure as indicators of chronic vascular injury. Rats exposed to 1 Gy iron ions demonstrated significantly increased aortic stiffness, as measured by pulse wave velocity. Aortic rings from irradiated rats exhibited impaired endothelial-dependent relaxation consistent with endothelial dysfunction. Acute xanthine oxidase (XO) inhibition or reactive oxygen species (ROS) scavenging restored endothelial-dependent responses to normal. 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source JSTOR Archival Journals
subjects Animals
Aorta
Aorta - drug effects
Aorta - pathology
Aorta - radiation effects
Biomechanical Phenomena
Dose response relationship
Endothelium, Vascular - drug effects
Endothelium, Vascular - enzymology
Endothelium, Vascular - metabolism
Endothelium, Vascular - radiation effects
Enzyme Inhibitors - pharmacology
Fluorescence
Ionizing radiation
Iron - adverse effects
Irradiation
Male
Nitric Oxide - biosynthesis
Oxypurinol - pharmacology
Radiation dosage
Rats
Rats, Wistar
Reactive Oxygen Species - metabolism
REGULAR ARTICLES
Space life sciences
Time Factors
Vascular stiffness
Vasodilation
Whole-Body Irradiation - adverse effects
Xanthine Oxidase - antagonists & inhibitors
Xanthine Oxidase - metabolism
Xanthines
title HZE 56Fe-Ion Irradiation Induces Endothelial Dysfunction in Rat Aorta: Role of Xanthine Oxidase
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