S100B/RAGE 增强的 ADAM17 活化在创伤性脑损伤后内皮糖萼脱落中的作用。

The role of S100B/RAGE-enhanced ADAM17 activation in endothelial glycocalyx shedding after traumatic brain injury.

机构信息

Guangdong Provincial Key Lab of Shock and Microcirculation, Department of Pathophysiology, School of Basic Medical Sciences, Southern Medical University, Guangzhou, 510515, Guangdong, China.

Department of Treatment Center for Traumatic Injuries, The Third Affiliated Hospital of Southern Medical University, Guangzhou, 510630, Guangdong, China.

出版信息

J Neuroinflammation. 2022 Feb 11;19(1):46. doi: 10.1186/s12974-022-02412-2.

DOI:10.1186/s12974-022-02412-2

PMID:35148784

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8832692/

Abstract

BACKGROUND

Traumatic brain injury (TBI) remains one of the main causes for disability and death worldwide. While the primary mechanical injury cannot be avoided, the prevention of secondary injury is the focus of TBI research. Present study aimed to elucidate the effects and mechanisms of S100B and its receptor RAGE on mediating secondary injury after TBI.

METHODS

This study established TBI animal model by fluid percussion injury in rats, cell model by stretch-injured in astrocytes, and endothelial injury model with conditioned medium stimulation. Pharmacological intervention was applied to interfere the activities of S100B/RAGE/ADAM17 signaling pathway, respectively. The expressions or contents of S100B, RAGE, syndecan-1 and ADAM17 in brain and serum, as well as in cultured cells and medium, were detected by western blot. The distribution of relative molecules was observed with immunofluorescence.

RESULTS

We found that TBI could activate the release of S100B, mostly from astrocytes, and S100B and RAGE could mutually regulate their expression and activation. Most importantly, present study revealed an obvious increase of syndecan-1 in rat serum or in endothelial cultured medium after injury, and a significant decrease in tissue and in cultured endothelial cells, indicating TBI-induced shedding of endothelial glycocalyx. The data further proved that the activation of S100B/RAGE signaling could promote the shedding of endothelial glycocalyx by enhancing the expression, translocation and activity of ADAM17, an important sheddase, in endothelial cells. The damage of endothelial glycocalyx consequently aggravated blood brain barrier (BBB) dysfunction and systemic vascular hyper-permeability, overall resulting in secondary brain and lung injury.

CONCLUSIONS

TBI triggers the activation of S100B/RAGE signal pathway. The regulation S100B/RAGE on ADAM17 expression, translocation and activation further promotes the shedding of endothelial glycocalyx, aggravates the dysfunction of BBB, and increases the vascular permeability, leading to secondary brain and lung injury. Present study may open a new corridor for the more in-depth understanding of the molecular processes responsible for cerebral and systemic vascular barrier impairment and secondary injury after TBI.

摘要

背景

颅脑损伤（TBI）仍然是全球残疾和死亡的主要原因之一。虽然无法避免原发性机械损伤，但 TBI 研究的重点是预防继发性损伤。本研究旨在阐明 S100B 及其受体 RAGE 在介导 TBI 后继发性损伤中的作用和机制。

方法

本研究通过大鼠液压冲击伤建立 TBI 动物模型，通过拉伸损伤星形胶质细胞建立细胞模型，通过条件培养基刺激建立内皮损伤模型。分别应用药物干预干扰 S100B/RAGE/ADAM17 信号通路的活性。通过 Western blot 检测脑和血清以及培养细胞和培养基中 S100B、RAGE、 syndecan-1 和 ADAM17 的表达或含量。用免疫荧光观察相对分子的分布。

结果

我们发现 TBI 可激活 S100B 的释放，主要来自星形胶质细胞，S100B 和 RAGE 可相互调节其表达和激活。最重要的是，本研究发现损伤后大鼠血清或内皮培养物中 syndecan-1 明显增加，组织和培养的内皮细胞中明显减少，表明 TBI 诱导内皮糖萼脱落。数据进一步证明，S100B/RAGE 信号的激活可通过增强内皮细胞中重要的脱落酶 ADAM17 的表达、易位和活性来促进内皮糖萼的脱落。内皮糖萼的损伤继而加重血脑屏障（BBB）功能障碍和全身血管通透性增加，导致继发性脑和肺损伤。

结论

TBI 触发 S100B/RAGE 信号通路的激活。S100B/RAGE 对 ADAM17 表达、易位和激活的调节进一步促进了内皮糖萼的脱落，加重了 BBB 的功能障碍，增加了血管通透性，导致继发性脑和肺损伤。本研究可能为更深入了解 TBI 后导致脑和全身血管屏障损伤和继发性损伤的分子过程开辟了新的途径。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7e9a/8832692/634a318d3eab/12974_2022_2412_Fig1_HTML.jpg

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S100B/RAGE 增强的 ADAM17 活化在创伤性脑损伤后内皮糖萼脱落中的作用。

The role of S100B/RAGE-enhanced ADAM17 activation in endothelial glycocalyx shedding after traumatic brain injury.

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RESULTS

CONCLUSIONS

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