Department of Medicine, Indiana University School of Medicine, Indianapolis, Indiana.
Department of Biostatistics and Health Data Science, Indiana University School of Medicine, Indianapolis, Indiana.
Radiat Res. 2022 Sep 1;198(3):221-242. doi: 10.1667/RADE-22-00071.1.
The hematopoietic system is highly sensitive to stress from both aging and radiation exposure, and the hematopoietic acute radiation syndrome (H-ARS) should be modeled in the geriatric context separately from young for development of age-appropriate medical countermeasures (MCMs). Here we developed aging murine H-ARS models, defining radiation dose response relationships (DRRs) in 12-month-old middle-aged and 24-month-old geriatric male and female C57BL/6J mice, and characterized diverse factors affecting geriatric MCM testing. Groups of approximately 20 mice were exposed to ∼10 different doses of radiation to establish radiation DRRs for estimation of the LD50/30. Radioresistance increased with age and diverged dramatically between sexes. The LD50/30 in young adult mice averaged 853 cGy and was similar between sexes, but increased in middle age to 1,005 cGy in males and 920 cGy in females, with further sex divergence in geriatric mice to 1,008 cGy in males but 842 cGy in females. Correspondingly, neutrophils, platelets, and functional hematopoietic progenitor cells were all increased with age and rebounded faster after irradiation. These effects were higher in aged males, and neutrophil dysfunction was observed in aged females. Upstream of blood production, hematopoietic stem cell (HSC) markers associated with age and myeloid bias (CD61 and CD150) were higher in geriatric males vs. females, and sex-divergent gene signatures were found in HSCs relating to cholesterol metabolism, interferon signaling, and GIMAP family members. Fluid intake per gram body weight decreased with age in males, and decreased after irradiation in all mice. Geriatric mice of substrain C57BL/6JN sourced from the National Institute on Aging were significantly more radiosensitive than C57BL/6J mice from Jackson Labs aged at our institution, indicating mouse source and substrain should be considered in geriatric radiation studies. This work highlights the importance of sex, vendor, and other considerations in studies relating to hematopoiesis and aging, identifies novel sex-specific functional and molecular changes in aging hematopoietic cells at steady state and after irradiation, and presents well-characterized aging mouse models poised for MCM efficacy testing for treatment of acute radiation effects in the elderly.
造血系统对衰老和辐射暴露的压力非常敏感,应分别在老年和年轻背景下对造血急性辐射综合征(H-ARS)进行建模,以开发适合年龄的医疗对策(MCM)。在这里,我们开发了衰老的小鼠 H-ARS 模型,定义了 12 个月大的中年和 24 个月大的老年雄性和雌性 C57BL/6J 小鼠的辐射剂量反应关系(DRR),并描述了影响老年 MCM 测试的多种因素。大约 20 只小鼠一组暴露于 10 种不同剂量的辐射下,以建立辐射 DRR,估计 LD50/30。随着年龄的增长,放射抗性增加,并且在性别之间存在显著差异。年轻成年小鼠的 LD50/30 平均为 853 cGy,且性别相似,但在中年时增加到雄性 1005 cGy,雌性 920 cGy,老年雄性进一步分化到 1008 cGy,但雌性为 842 cGy。相应地,中性粒细胞、血小板和功能性造血祖细胞随着年龄的增长而增加,并且在照射后恢复得更快。这些影响在老年雄性中更高,并且在老年雌性中观察到中性粒细胞功能障碍。在血液产生的上游,与年龄和髓系偏向相关的造血干细胞(HSC)标志物(CD61 和 CD150)在老年雄性中高于雌性,并且在 HSCs 中发现了与胆固醇代谢、干扰素信号传导和 GIMAP 家族成员相关的性别差异基因特征。雄性的每克体重的液体摄入量随年龄的增长而减少,并且所有小鼠在照射后都会减少。来自美国国立卫生研究院的亚系 C57BL/6JN 老年小鼠比我们机构中来自杰克逊实验室的年龄相同的 C57BL/6J 小鼠的辐射敏感性显著更高,这表明在老年辐射研究中应考虑小鼠来源和亚系。这项工作强调了性别、供应商和与造血和衰老相关的研究中的其他因素的重要性,确定了在稳态和照射后衰老造血细胞中新颖的性别特异性功能和分子变化,并提供了经过充分表征的衰老小鼠模型,可用于治疗老年人急性辐射效应的 MCM 疗效测试。
