The longitudinal behavioral effects of acute exposure to galactic cosmic radiation in female C57BL/6J mice: Implications for deep space missions, female crews, and potential antioxidant countermeasures.

IF 4.2 3区 医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of Neurochemistry Pub Date : 2024-09-25 DOI:10.1111/jnc.16225
Sanghee Yun, Frederico C Kiffer, Grace L Bancroft, Caterina S Guzman, Ivan Soler, Harley A Haas, Raymon Shi, Riya Patel, Jaysen Lara-Jiménez, Priya L Kumar, Fionya H Tran, Kyung Jin Ahn, Yuying Rong, Krishna Luitel, Jerry W Shay, Amelia J Eisch
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Abstract

Galactic cosmic radiation (GCR) is an unavoidable risk to astronauts that may affect mission success. Male rodents exposed to 33-beam-GCR (33-GCR) show short-term cognitive deficits but reports on female rodents and long-term assessment are lacking. We asked: What are the longitudinal behavioral effects of 33-GCR on female mice? Also, can an antioxidant/anti-inflammatory compound (CDDO-EA) mitigate the impact of 33-GCR? Mature (6-month-old) C57BL/6J female mice received CDDO-EA (400 μg/g of food) or a control diet (vehicle, Veh) for 5 days and Sham-irradiation (IRR) or whole-body 33-GCR (0.75Gy) on the 4th day. Three-months post-IRR, mice underwent two touchscreen-platform tests: (1) location discrimination reversal (tests behavior pattern separation and cognitive flexibility, abilities reliant on the dentate gyrus) and (2) stimulus-response learning/extinction. Mice then underwent arena-based behavior tests (e.g. open field, 3-chamber social interaction). At the experiment's end (14.25-month post-IRR), an index relevant to neurogenesis was quantified (doublecortin-immunoreactive [DCX+] dentate gyrus immature neurons). Female mice exposed to Veh/Sham vs. Veh/33-GCR had similar pattern separation (% correct to 1st reversal). There were two effects of diet: CDDO-EA/Sham and CDDO-EA/33-GCR mice had better pattern separation vs. their respective control groups (Veh/Sham, Veh/33-GCR), and CDDO-EA/33-GCR mice had better cognitive flexibility (reversal number) vs. Veh/33-GCR mice. One radiation effect/CDDO-EA countereffect also emerged: Veh/33-GCR mice had slower stimulus-response learning (days to completion) vs. all other groups, including CDDO-EA/33-GCR mice. In general, all mice showed normal anxiety-like behavior, exploration, and habituation to novel environments. There was also a change relevant to neurogenesis: Veh/33-GCR mice had fewer DCX+ dentate gyrus immature neurons vs. Veh/Sham mice. Our study implies space radiation is a risk to a female crew's longitudinal mission-relevant cognitive processes and CDDO-EA is a potential dietary countermeasure for space-radiation CNS risks.

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雌性 C57BL/6J 小鼠急性暴露于银河宇宙辐射的纵向行为影响:对深空任务、女性乘员和潜在抗氧化对策的影响。
银河宇宙辐射(GCR)是宇航员不可避免的风险,可能会影响任务的成功。雄性啮齿动物暴露于 33 射束-GCR(33-GCR)后会出现短期认知障碍,但缺乏关于雌性啮齿动物和长期评估的报告。我们想知道33-GCR 对雌性小鼠的纵向行为影响是什么?此外,抗氧化/抗炎化合物(CDDO-EA)能否减轻 33-GCR 的影响?成熟(6 个月大)的 C57BL/6J 雌性小鼠连续 5 天接受 CDDO-EA(400 μg/g 食物)或对照饮食(载体,Veh),第 4 天接受 Sham-irradiation (IRR) 或全身 33-GCR (0.75Gy)。IRR后三个月,小鼠接受了两项触摸屏平台测试:(1)位置辨别逆转(测试行为模式分离和认知灵活性,这些能力依赖于齿状回)和(2)刺激-反应学习/消退。然后,小鼠接受基于竞技场的行为测试(如开放场地、3 室社会互动)。实验结束时(IRR 后 14.25 个月),对与神经发生相关的指标(双皮质素免疫反应性 [DCX+] 齿状回未成熟神经元)进行量化。暴露于 Veh/Sham 与 Veh/33-GCR 的雌性小鼠具有相似的模式分离能力(第一次逆转的正确率)。饮食有两种影响:与各自的对照组(Veh/Sham、Veh/33-GCR)相比,CDDO-EA/Sham 和 CDDO-EA/33-GCR 小鼠的模式分离能力更强;与 Veh/33-GCR 小鼠相比,CDDO-EA/33-GCR 小鼠的认知灵活性(逆转次数)更强。还出现了一种辐射效应/CDDO-EA 反效应:与包括 CDDO-EA/33-GCR 小鼠在内的所有其他组相比,Veh/33-GCR 小鼠的刺激-反应学习(完成天数)较慢。总体而言,所有小鼠都表现出正常的焦虑样行为、探索和对新环境的适应。神经发生方面也有变化:与 Veh/Sham 小鼠相比,Veh/33-GCR 小鼠的齿状回未成熟神经元 DCX+ 更少。我们的研究表明,太空辐射对女性乘员与飞行任务相关的纵向认知过程构成风险,而CDDO-EA是应对太空辐射中枢神经系统风险的潜在饮食对策。
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来源期刊
Journal of Neurochemistry
Journal of Neurochemistry 医学-神经科学
CiteScore
9.30
自引率
2.10%
发文量
181
审稿时长
2.2 months
期刊介绍: Journal of Neurochemistry focuses on molecular, cellular and biochemical aspects of the nervous system, the pathogenesis of neurological disorders and the development of disease specific biomarkers. It is devoted to the prompt publication of original findings of the highest scientific priority and value that provide novel mechanistic insights, represent a clear advance over previous studies and have the potential to generate exciting future research.
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