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TLR2 激活的小胶质细胞 NF-κB 活性及炎症和抗炎因子浓度的温度和时间依赖性变化。

Temperature- and time-dependent changes in TLR2-activated microglial NF-κB activity and concentrations of inflammatory and anti-inflammatory factors.

机构信息

Department of Laboratory Sciences, Yamaguchi University Graduate School of Medicine, 1-1-1 Minami-kogushi, Ube, Yamaguchi 755-8505, Japan.

出版信息

Intensive Care Med. 2012 Aug;38(8):1392-9. doi: 10.1007/s00134-012-2591-3. Epub 2012 Jun 1.

DOI:10.1007/s00134-012-2591-3
PMID:22653369
Abstract

PURPOSE

Therapeutic hypothermia protects neurons following injury to the central nervous system (CNS). Microglia express toll-like receptors (TLRs) that play significant roles in pathological processes in sterile CNS injury. We have examined the effects of culture temperature on the TLR2-activated microglial production of cytokines and nitric oxide (NO), which are known to be associated with CNS damage, and the possible involvement of nuclear factor-κB (NF-κB) activation underlying such effects.

METHODS

Rat microglia were cultured with a selective TLR2 agonist, Pam(3)CSK(4), under hypothermic, normothermic, and hyperthermic conditions, and with Pam(3)CSK(4) in the presence of a NF-κB activation inhibitor at 37 °C. Cytokine and NO levels and NF-κB p65 activation were measured.

RESULTS

The production of tumor necrosis factor-alpha (TNF-α), interleukin-10 (IL-10), and NO and the activation of NF-κB p65 were reduced by hypothermia, but augmented by hyperthermia at 3-6, 24-48, 48, and 0.5 h, post-treatment initiation, respectively. Pharmacological inhibition of NF-κB activation impaired the Pam(3)CSK(4)-induced TNF-α, IL-10, and NO production.

CONCLUSIONS

In TLR2-activated microglia, hypothermia reduced, while hyperthermia increased, the early activation of NF-κB and the subsequent NF-κB-mediated production of TNF-α, IL-10, and NO in a time-dependent manner, suggesting that attenuation of these factors via suppression of NF-κB in microglia is one possible neuroprotective mechanism of therapeutic hypothermia. Moreover, temperature-dependent changes in microglial TNF-α production during the early phase and IL-10 and NO production during the late phase indicate that these factors might be useful as clinical markers to monitor hypothermia-related neuronal protection and hyperthermia-related neuronal injury.

摘要

目的

治疗性低温可保护中枢神经系统(CNS)损伤后的神经元。小胶质细胞表达 Toll 样受体(TLR),在无菌性 CNS 损伤的病理过程中发挥重要作用。我们研究了培养温度对 TLR2 激活的小胶质细胞细胞因子和一氧化氮(NO)产生的影响,已知这些细胞因子和 NO 与 CNS 损伤有关,以及可能涉及潜在的核因子-κB(NF-κB)激活。

方法

在低温、正常温度和高温条件下,用选择性 TLR2 激动剂 Pam(3)CSK(4)培养大鼠小胶质细胞,并在 37°C 下用 Pam(3)CSK(4)和 NF-κB 激活抑制剂孵育。测量细胞因子和 NO 水平以及 NF-κB p65 的激活。

结果

与正常温度相比,低温治疗可减少肿瘤坏死因子-α(TNF-α)、白细胞介素-10(IL-10)和 NO 的产生,并减少 NF-κB p65 的激活,但在治疗开始后 3-6、24-48、48 和 0.5 小时,高温治疗可增加 TNF-α、IL-10 和 NO 的产生和 NF-κB p65 的激活。NF-κB 激活的药理学抑制削弱了 Pam(3)CSK(4)诱导的 TNF-α、IL-10 和 NO 的产生。

结论

在 TLR2 激活的小胶质细胞中,低温治疗以时间依赖性方式减少了 NF-κB 的早期激活以及随后的 NF-κB 介导的 TNF-α、IL-10 和 NO 的产生,而高温治疗则增加了 NF-κB 的早期激活以及随后的 NF-κB 介导的 TNF-α、IL-10 和 NO 的产生。这表明通过抑制小胶质细胞中的 NF-κB 来抑制这些因子可能是治疗性低温的一种潜在神经保护机制。此外,早期阶段小胶质细胞 TNF-α产生的温度依赖性变化以及晚期阶段 IL-10 和 NO 产生的温度依赖性变化表明,这些因子可能作为临床标志物有用,以监测与低温相关的神经元保护和与高温相关的神经元损伤。

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Necrotic neurons enhance microglial neurotoxicity through induction of glutaminase by a MyD88-dependent pathway.坏死神经元通过MyD88依赖途径诱导谷氨酰胺酶,增强小胶质细胞的神经毒性。
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IL-10 production is reduced by hypothermia but augmented by hyperthermia in rat microglia.在大鼠小胶质细胞中,低温会降低白细胞介素-10的产生,而高温则会增加其产生。
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