Sobel R A, Hinojoza J R, Maeda A, Chen M
Pathology Service, Veterans Affairs Health Care System, Palo Alto, California 94304, USA.
Am J Pathol. 1998 Aug;153(2):405-15. doi: 10.1016/S0002-9440(10)65584-8.
Laminin, a major glycoprotein component of vessel basement membranes, is recognized by beta1- and beta3-integrins expressed on endothelial cells. To determine how endothelial cell integrins might function in multiple sclerosis (MS) lesions, integrin laminin receptors and laminin were analyzed in central nervous system samples from MS patients and controls by immunohistochemistry. In active MS lesions, endothelial cell VLA-6 and beta1 subunits were decreased compared to controls whereas alpha(v) subunit and VLA-1 were increased. In chronic inactive lesions beta1, VLA-6 and alpha(v) were the same as controls but VLA-1 remained increased. Alpha3 subunit was constant in all samples. By immunoelectron microscopy VLA-1, VLA-6, beta1, and laminin were distributed throughout endothelial cells; alpha(v) was adjacent to and on luminal surfaces; alpha(v) and VLA-1 were on intercellular junctions. These results indicate distinct regulation and functions of these integrins in different lesion stages. In active lesions decreased endothelial cell beta1/VLA-6 could result in their detachment from laminin thereby facilitating leukocyte transvascular migration and blood-brain barrier breakdown. Alpha(v) and VLA-1 on intercellular junctions may participate in re-establishing vessel integrity after leukocyte migration. Luminal surface alpha(v) also likely binds intraluminal ligands and cells. In chronic inactive plaques persistently elevated endothelial cell VLA-1 correlates with long-standing endothelial cell and blood-brain barrier dysfunction.
层粘连蛋白是血管基底膜的主要糖蛋白成分,可被内皮细胞上表达的β1和β3整合素识别。为了确定内皮细胞整合素在多发性硬化症(MS)病变中可能如何发挥作用,通过免疫组织化学分析了MS患者和对照的中枢神经系统样本中的整合素层粘连蛋白受体和层粘连蛋白。在活动性MS病变中,与对照相比,内皮细胞VLA-6和β1亚基减少,而α(v)亚基和VLA-1增加。在慢性非活动性病变中,β1、VLA-6和α(v)与对照相同,但VLA-1仍然增加。α3亚基在所有样本中保持恒定。通过免疫电子显微镜观察,VLA-1、VLA-6、β1和层粘连蛋白分布于整个内皮细胞;α(v)位于管腔表面并与之相邻;α(v)和VLA-1位于细胞间连接处。这些结果表明这些整合素在不同病变阶段具有不同的调节和功能。在活动性病变中,内皮细胞β1/VLA-6减少可能导致它们与层粘连蛋白分离,从而促进白细胞跨血管迁移和血脑屏障破坏。细胞间连接处的α(v)和VLA-1可能参与白细胞迁移后血管完整性的重建。管腔表面的α(v)也可能与管腔内配体和细胞结合。在慢性非活动性斑块中,内皮细胞VLA-1持续升高与长期存在的内皮细胞和血脑屏障功能障碍相关。