期刊
HEALTH PHYSICS
卷 106, 期 6, 页码 720-726出版社
LIPPINCOTT WILLIAMS & WILKINS
DOI: 10.1097/HP.0000000000000108
关键词
blood; DNA; radiation therapy; repair; cellular
类别
资金
- NIH/NIAID [R33 AI080553]
Exposure to ionizing radiation alone (radiation injury, RI) or combined with traumatic tissue injury (radiation combined injury, CI) is a crucial life-threatening factor in nuclear and radiological accidents. It is well documented that RI and CI occur at the molecular, cellular, tissue, and system levels. However, their mechanisms remain largely unclear. It has been observed in dogs, pigs, rats, guinea pigs, and mice that radiation exposure combined with burns, wounds, or bacterial infection results in greater mortality than radiation exposure alone. In this laboratory, the authors found that B6D2F1/J female mice exposed to 9.75 Gy Co-60- photon radiation followed by 15% total body surface area wounds experienced 50% higher mortality (over a 30-d observation period) compared to irradiation alone. CI enhanced DNA damages, amplified iNOS activation, induced massive release of pro-inflammatory cytokines, overexpressed MMPs and TLRs, and aggravated sepsis that led to cell death. In the present study, B6D2F1/J mice that received CI were treated with ciprofloxacin (CIP, 90 mg/kg p.o., q.d. within 2 h after CI through day 21). At day 1, CIP treatment reduced CI-induced -H2AX formation significantly. At day 10, CIP treatment not only reduced cytokine/chemokine concentrations significantly, including IL-6 and KC (i.e., IL-8 in humans), but also enhanced IL-3 production compared to vehicle-treated controls. CIP also elevated red blood cell counts, hemoglobin levels, and hematocrits. At day 30, CIP treatment increased 45% survival after CI (i.e., 2.3-fold increase over vehicle treatment). The results suggest that CIP may prove to be an effective therapeutic drug for CI.
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