Hindlimb unloading, a physiological model of microgravity, modifies the murine bone marrow IgM repertoire in a similar manner as aging but less strongly.

IF 5.2 2区 医学 Q1 GERIATRICS & GERONTOLOGY
Coralie Fonte, Pauline Jacob, Anne Vanet, Stéphanie Ghislin, Jean-Pol Frippiat
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引用次数: 0

Abstract

Background: The spaceflight environment is an extreme environment that affects the immune system of approximately 50% of astronauts. With planned long-duration missions, such as the deployment of the Lunar Gateway and possible interplanetary missions, it is mandatory to determine how all components of the immune system are affected, which will allow the establishment of countermeasures to preserve astronaut health. However, despite being an important component of the immune system, antibody-mediated humoral immunity has rarely been investigated in the context of the effects of the space environment. It has previously been demonstrated that 30 days aboard the BION-M1 satellite and 21 days of hindlimb unloading (HU), a model classically used to mimic the effects of microgravity, decrease murine B lymphopoiesis. Furthermore, modifications in B lymphopoiesis reported in young mice subjected to 21 days of HU were shown to be similar to those observed in aged mice (18-22 months). Since the primary antibody repertoire composed of IgM is created by V(D) J recombination during B lymphopoiesis, the objective of this study was to assess the degree of similarity between changes in the bone marrow IgM repertoire and in the V(D)J recombination process in 2.5-month-old mice subjected to 21 days of HU and aged (18 months) mice.

Results: We found that in 21 days, HU induced changes in the IgM repertoire that were approximately 3-fold less than those in aged mice, which is a rapid effect. Bone remodeling and epigenetics likely mediate these changes. Indeed, we previously demonstrated a significant decrease in tibial morphometric parameters from day 6 of HU and a progressive reduction in these parameters until day 21 of HU, and it has been shown that age and microgravity induce epigenetic changes.

Conclusion: These data reveal novel immune changes that are akin to advanced aging and underline the importance of studying the effects of spaceflight on antibody-mediated humoral immunity.

后肢卸载,微重力的生理模型,以与衰老相似的方式改变小鼠骨髓IgM库,但不那么强烈。
背景:航天环境是一个极端的环境,影响大约50%的宇航员的免疫系统。对于计划中的长期任务,例如部署月球门户和可能的行星际任务,必须确定免疫系统的所有组成部分是如何受到影响的,这将允许建立对策以保护宇航员的健康。然而,尽管抗体介导的体液免疫是免疫系统的一个重要组成部分,但很少在空间环境影响的背景下进行研究。先前已经证明,在BION-M1卫星上30天和21天的后肢卸载(HU)(一种典型的用于模拟微重力影响的模型)会减少小鼠B淋巴生成。此外,在接受21天HU治疗的年轻小鼠中报告的B淋巴系统的改变与在成年小鼠(18-22个月)中观察到的相似。由于由IgM组成的一抗库是在B淋巴形成过程中由V(D)J重组产生的,因此本研究的目的是评估2.5月龄小鼠接受21天HU治疗和成年(18个月)小鼠骨髓IgM库和V(D)J重组过程变化的相似程度。结果:我们发现,在21天内,HU诱导的IgM库变化约为老年小鼠的3倍,这是一个快速的效果。骨重塑和表观遗传学可能介导了这些变化。事实上,我们之前已经证明,从HU的第6天开始,胫骨形态测量参数显著下降,并且这些参数在HU的第21天逐渐下降,并且已经证明年龄和微重力诱导表观遗传变化。结论:这些数据揭示了类似于提前衰老的新的免疫变化,并强调了研究太空飞行对抗体介导的体液免疫影响的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Immunity & Ageing
Immunity & Ageing GERIATRICS & GERONTOLOGY-IMMUNOLOGY
CiteScore
10.20
自引率
3.80%
发文量
55
期刊介绍: Immunity & Ageing is a specialist open access journal that was first published in 2004. The journal focuses on the impact of ageing on immune systems, the influence of aged immune systems on organismal well-being and longevity, age-associated diseases with immune etiology, and potential immune interventions to increase health span. All articles published in Immunity & Ageing are indexed in the following databases: Biological Abstracts, BIOSIS, CAS, Citebase, DOAJ, Embase, Google Scholar, Journal Citation Reports/Science Edition, OAIster, PubMed, PubMed Central, Science Citation Index Expanded, SCImago, Scopus, SOCOLAR, and Zetoc.
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