糖基化后人类血脑屏障功能障碍的新见解。

Novel insights in the dysfunction of human blood-brain barrier after glycation.

作者信息

Hussain Maryam, Bork Kaya, Gnanapragassam Vinayaga S, Bennmann Dorit, Jacobs Kathleen, Navarette-Santos Alexander, Hofmann Britt, Simm Andreas, Danker Kerstin, Horstkorte Rüdiger

机构信息

Institute of Physiological Chemistry, Martin-Luther-University Halle-Wittenberg, Hollystr. 1, D-06114 Halle (Salle), Germany.

Clinic and Policlinic for Cardiothoracic Surgery, University Hospital Halle, Ernst-Grube-Str. 40, D-06120 Halle (Saale), Germany.

出版信息

Mech Ageing Dev. 2016 Apr;155:48-54. doi: 10.1016/j.mad.2016.03.004. Epub 2016 Mar 11.

DOI:10.1016/j.mad.2016.03.004

PMID:26975648

Abstract

The blood-brain barrier (BBB) provides a dynamic and complex interface consisting of endothelial cells, pericytes and astrocytes, which are embedded in a collagen and fibronectin-rich basement membrane. This complex structure restricts the diffusion of small hydrophilic solutes and macromolecules as well as the transmigration of leukocytes into the brain. It has been shown that carbonyl stress followed by the formation of advanced glycation endproducts (AGE=glycation) interfere with the BBB integrity and function. Here, we present data that carbonyl stress induced by methylglyoxal leads to glycation of endothelial cells and the basement membrane, which interferes with the barrier-function and with the expression of RAGE, occludin and ZO-1. Furthermore, methylglyoxal induced carbonyl stress promotes the expression of the pro-inflammatory interleukins IL-6 and IL-8. In summary, this study provides new insights into the relationship between AGE formation by carbonyl stress and brain microvascular endothelial barrier dysfunction.

摘要

血脑屏障（BBB）提供了一个由内皮细胞、周细胞和星形胶质细胞组成的动态且复杂的界面，这些细胞嵌入富含胶原蛋白和纤连蛋白的基底膜中。这种复杂结构限制了小的亲水性溶质和大分子的扩散以及白细胞向脑内的迁移。研究表明，羰基应激随后形成晚期糖基化终产物（AGE = 糖基化）会干扰血脑屏障的完整性和功能。在此，我们展示的数据表明，甲基乙二醛诱导的羰基应激会导致内皮细胞和基底膜的糖基化，这会干扰屏障功能以及RAGE、闭合蛋白和紧密连接蛋白1（ZO-1）的表达。此外，甲基乙二醛诱导的羰基应激会促进促炎性白细胞介素IL-6和IL-8的表达。总之，本研究为羰基应激导致的AGE形成与脑微血管内皮屏障功能障碍之间的关系提供了新的见解。

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糖基化后人类血脑屏障功能障碍的新见解。

Novel insights in the dysfunction of human blood-brain barrier after glycation.

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