微重力抑制巨噬细胞中脂多糖诱导的肿瘤坏死因子-α表达。

Microgravity inhibition of lipopolysaccharide-induced tumor necrosis factor-α expression in macrophage cells.

机构信息

Transplantation Biology Research Division, State Key Laboratory of Biomembrane and Membrane Biotechnology, Institute of Zoology, Chinese Academy of Sciences, Beichen West Road 1-5, Chaoyang District, Beijing, 100101, China.

出版信息

Inflamm Res. 2014 Jan;63(1):91-8. doi: 10.1007/s00011-013-0676-2. Epub 2013 Nov 6.

DOI:10.1007/s00011-013-0676-2

PMID:24196691

Abstract

OBJECTIVE AND DESIGN

Microgravity environments in space can cause major abnormalities in human physiology, including decreased immunity. The underlying mechanisms of microgravity-induced inflammatory defects in macrophages are unclear.

MATERIAL OR SUBJECTS

RAW264.7 cells and primary mouse macrophages were used in the present study. Lipopolysaccharide (LPS)-induced cytokine expression in mouse macrophages was detected under either simulated microgravity or 1g control.

METHODS

Freshly isolated primary mouse macrophages and RAW264.7 cells were cultured in a standard simulated microgravity situation using a rotary cell culture system (RCCS-1) and 1g control conditions. The cytokine expression was determined by real-time PCR and ELISA assays. Western blots were used to investigate the related intracellular signals.

RESULTS

LPS-induced tumor necrosis factor-α (TNF-α) expression, but not interleukin-1β expression, in mouse macrophages was significantly suppressed under simulated microgravity. The molecular mechanism studies showed that LPS-induced intracellular signal transduction including phosphorylation of IKK and JNK and nuclear translocation of NF-κB in macrophages was identical under normal gravity and simulated microgravity. Furthermore, TNF-α mRNA stability did not decrease under simulated microgravity. Finally, we found that heat shock factor-1 (HSF1), a known repressor of TNF-α promoter, was markedly activated under simulated microgravity.

CONCLUSIONS

Short-term treatment with microgravity caused significantly decreased TNF-α production. Microgravity-activated HSF1 may contribute to the decreased TNF-α expression in macrophages directly caused by microgravity, while the LPS-induced NF-κB pathway is resistant to microgravity.

摘要

目的和设计

太空微重力环境可导致人体生理发生重大异常，包括免疫力下降。目前尚不清楚巨噬细胞微重力诱导炎症缺陷的潜在机制。

材料或对象

本研究使用 RAW264.7 细胞和原代小鼠巨噬细胞。在模拟微重力或 1g 对照条件下，检测脂多糖（LPS）诱导的小鼠巨噬细胞细胞因子表达。

方法

采用旋转细胞培养系统（RCCS-1）和 1g 对照条件，在标准模拟微重力环境中培养新鲜分离的原代小鼠巨噬细胞和 RAW264.7 细胞。通过实时 PCR 和 ELISA 检测细胞因子表达。采用 Western blot 检测相关细胞内信号。

结果

LPS 诱导的 TNF-α（肿瘤坏死因子-α）表达，但不是 IL-1β（白细胞介素-1β）表达，在模拟微重力下的小鼠巨噬细胞中受到显著抑制。分子机制研究表明，LPS 诱导的细胞内信号转导，包括 IKK 和 JNK 的磷酸化以及 NF-κB 的核易位，在正常重力和模拟微重力下是相同的。此外，TNF-α mRNA 稳定性在模拟微重力下没有降低。最后，我们发现热休克因子-1（HSF1），一种已知的 TNF-α 启动子抑制剂，在模拟微重力下明显被激活。

结论

短期微重力处理可显著降低 TNF-α 的产生。微重力激活的 HSF1 可能直接导致巨噬细胞中 TNF-α 表达减少，而 LPS 诱导的 NF-κB 途径对微重力有抗性。

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微重力抑制巨噬细胞中脂多糖诱导的肿瘤坏死因子-α表达。

Microgravity inhibition of lipopolysaccharide-induced tumor necrosis factor-α expression in macrophage cells.

机构信息

出版信息

OBJECTIVE AND DESIGN

MATERIAL OR SUBJECTS

METHODS

RESULTS

CONCLUSIONS

目的和设计

材料或对象

方法

结果

结论

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