Abe Y, Ballantyne C M, Smith C W
Department of Pediatrics, Baylor College of Medicine, Houston, TX 77030, USA.
J Immunol. 1996 Dec 1;157(11):5061-9.
To assess the potential contributions of endothelial vascular cell adhesion molecule-1 (VCAM-1) to leukocyte adhesion under conditions of flow, we evaluated the effects of cytokine stimulation of HUVEC on primary capture, rolling, and stable adhesion of mono- and lymphoblastoid cells in a parallel-plate flow chamber. Stimulation of HUVEC with IL-1beta or IL-4 for 24 h induced surface expression of VCAM-1, consistent with published results. Using blocking mAbs to inhibit specific adhesion molecules, we found that a significant level of primary capture at wall shear stresses between 0.5 and 2.0 dynes/cm2 could be attributed to alpha4 integrin and VCAM-1. This primary adhesion under flow was most often characterized by abrupt stationary adhesion with little evidence of rolling. Studies with IL-1beta-stimulated HUVEC revealed that domain 1 of VCAM-1 was solely responsible for alpha4 integrin-dependent primary capture under flow, but both domains 1 and 4 were utilized in alpha4 integrin-dependent adhesion under static conditions. In contrast to results obtained with these cytokines alone, stimulation of HUVEC with a combination of IL-1beta and IL-4 markedly reduced alpha4/VCAM-1-dependent adhesion under flow, even though the surface levels of VCAM-1 were greater than with either cytokine alone, and alpha4/VCAM-1-dependent adhesion under static conditions was intact. These results demonstrate that distinct functional differences exist between the interactions of VCAM-1 and alpha4 integrin under static and flow conditions, and they reveal the potential for endothelial modulation of adhesion under flow without altering VCAM-1-dependent adhesion under static conditions.
为了评估内皮血管细胞黏附分子-1(VCAM-1)在流动条件下对白细胞黏附的潜在作用,我们在平行板流动腔中评估了细胞因子刺激人脐静脉内皮细胞(HUVEC)对单核细胞和淋巴母细胞的初始捕获、滚动及稳定黏附的影响。用白细胞介素-1β(IL-1β)或白细胞介素-4(IL-4)刺激HUVEC 24小时可诱导VCAM-1的表面表达,这与已发表的结果一致。使用阻断性单克隆抗体抑制特定黏附分子,我们发现,在0.5至2.0达因/平方厘米的壁面剪应力下,显著水平的初始捕获可归因于α4整合素和VCAM-1。这种流动条件下的初始黏附通常表现为突然的静止黏附,几乎没有滚动迹象。对IL-1β刺激的HUVEC的研究表明,VCAM-1的结构域1单独负责流动条件下α4整合素依赖性的初始捕获,但在静态条件下,α4整合素依赖性黏附同时利用了结构域1和4。与单独使用这些细胞因子获得的结果相反,用IL-1β和IL-4联合刺激HUVEC显著降低了流动条件下α4/VCAM-1依赖性黏附,尽管VCAM-1的表面水平高于单独使用任何一种细胞因子时的水平,并且静态条件下α4/VCAM-1依赖性黏附未受影响。这些结果表明,VCAM-1与α4整合素在静态和流动条件下的相互作用存在明显的功能差异,并且揭示了在内皮细胞在不改变静态条件下VCAM-1依赖性黏附的情况下调节流动条件下黏附的可能性。
