Fate of Pathologically Bound Oxygen Resulting from Inhalation of Labeled Ozone in Rats

Fate of Pathologically Bound Oxygen Resulting from Inhalation of Labeled Ozone in Rats

Inhaled ozone (O3) reacts chemically with respiratory tract biomolecules where it forms covalently bound oxygen adducts. We investigated the fate of these adducts following inhalation exposure of rats to labeled ozone (18O3, 2 ppm, 6 hr or 5 ppm, 2 hr). Increased 18O was detected in blood plasma at...

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Veröffentlicht in:Environmental health insights 2020-01, Vol.7 (1)
Hauptverfasser: Hatch, Gary E., Slade, Ralph, McKee, John
Format: Artikel
Sprache:eng
Schlagworte:
adducts
biomarkers
excretion
Original Research
oxidative stress
ozone
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Zusammenfassung:Inhaled ozone (O3) reacts chemically with respiratory tract biomolecules where it forms covalently bound oxygen adducts. We investigated the fate of these adducts following inhalation exposure of rats to labeled ozone (18O3, 2 ppm, 6 hr or 5 ppm, 2 hr). Increased 18O was detected in blood plasma at 7 hr post exposure and was continuously present in urine for 4 days. Total 18O excreted was -53% of the estimated amount of 18O3 retained by the rats during 18O3 exposure suggesting that only moderate recycling of the adduct material occurs. The time course of excretion, as well as properties of the excreted 18O were determined to provide guidance to future searches for urinary oxidative stress markers. These results lend plausibility to published findings that O3 inhalation could exert influences outside the lung, such as enhancement of atherosclerotic plaques.
ISSN:1178-6302
DOI:10.1177/EHI.S12673