Protective effects of 2-aminoethylthiosulfuric acid and structurally analogous organosulfur compounds against ionizing radiation

Protective effects of 2-aminoethylthiosulfuric acid and structurally analogous organosulfur compounds against ionizing radiation

High efficacy and minimal toxicity radioprotectors are desirable options for the hazards posed by nuclear medical and energy technologies and the dangers presented by nuclear weapons in an unstable global situation. Although cysteamine is an effective radioprotector, it has considerable toxicity. In...

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Bibliographic Details
Published in:Journal of Clinical Biochemistry and Nutrition Vol. 72; no. 2; pp. 117 - 125
Main Authors: Takeshita, Keizo, Ueno, Megumi, Fujii-Aikawa, Kaori, Okazaki, Shoko, Ohta, Yuhei, Ozawa, Toshihiko
Format: Journal Article
Language:English
Published: Japan SOCIETY FOR FREE RADICAL RESEARCH JAPAN 01-01-2023
Japan Science and Technology Agency
the Society for Free Radical Research Japan
Subjects:
Aqueous solutions
Body weight
Bone marrow
Cysteamine
Damage
Energy technology
Erythrocytes
Ionizing radiation
Irradiation
Leukocytes (neutrophilic)
Nuclear weapons
Organosulfur compounds
Original
Protected species
Radiation
radiation protective agent
radical scavenger
reactive oxygen species
Scavenging
Spleen
sulfuric compound
thiosulfate ester
Toxic hazards
Toxicity
X ray irradiation
radical scavenger
radiation protective agent
thiosulfate ester
sulfuric compound
reactive oxygen species
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Summary:High efficacy and minimal toxicity radioprotectors are desirable options for the hazards posed by nuclear medical and energy technologies and the dangers presented by nuclear weapons in an unstable global situation. Although cysteamine is an effective radioprotector, it has considerable toxicity. In this study, the protective effects of the less toxic organosulfur compounds 2-‍aminoethylthiosulfate (AETS), thiotaurine (TTAU), and hypotaurine (HTAU) against X-ray damage in mice were compared with that of cysteamine. Intraperitoneal injection of either AETS or cysteamine (2.2 mmol/kg body weight) 30 min before X-ray irradiation (7.0 Gy) provided 100% survival for 30 days, limited the decrease in erythrocytes and neutrophils over 9 days, and reduced damage to bone marrow and spleen over 9 days. Neither TTAU nor HTAU provided any protection. In mice, 30 min after AETS administration, non-protein thiol content increased in the spleen, indicating cysteamine generation by AETS hydrolysis, the active protective species of AETS. All examined compounds scavenged •OH under diffusion control in aqueous solution, which is inconsistent with the difference in the protective effects among the compounds. The results indicate that AETS protects animals from ionizing radiation by several mechanisms, including scavenging •OH as cysteamine.
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content type line 23
ISSN:0912-0009
1880-5086
DOI:10.3164/jcbn.22-88