Birukova Anna A, Chatchavalvanich Santipongse, Rios Alexander, Kawkitinarong Kamon, Garcia Joe G N, Birukov Konstantin G
Department of Medicine, Section of Pulmonary and Critical Care Medicine, University of Chicago, Chicago, Illinois 60637, USA.
Am J Pathol. 2006 May;168(5):1749-61. doi: 10.2353/ajpath.2006.050431.
Ventilator-induced lung injury is a life-threatening complication of mechanical ventilation at high-tidal volumes. Besides activation of proinflammatory cytokine production, excessive lung distension directly affects blood-gas barrier and lung vascular permeability. To investigate whether restoration of pulmonary endothelial cell (EC) monolayer integrity after agonist challenge is dependent on the magnitude of applied cyclic stretch (CS) and how these effects are linked to differential activation of small GTPases Rac and Rho, pulmonary ECs were subjected to physiologically (5% elongation) or pathologically (18% elongation) relevant levels of CS. Pathological CS enhanced thrombin-induced gap formation and delayed monolayer recovery, whereas physiological CS induced nearly complete EC recovery accompanied by peripheral redistribution of focal adhesions and cortactin after 50 minutes of thrombin. Consistent with differential effects on monolayer integrity, 18% CS enhanced thrombin-induced Rho activation, whereas 5% CS promoted Rac activation during the EC recovery phase. Rac inhibition dramatically attenuated restoration of monolayer integrity after thrombin challenge. Physiological CS preconditioning (5% CS, 24 hours) enhanced EC paracellular gap resolution after step-wise increase to 18% CS (30 minutes) and thrombin challenge. These results suggest a critical role for the CS amplitude and the balance between Rac and Rho in mechanochemical regulation of lung EC barrier.
呼吸机诱导的肺损伤是高潮气量机械通气的一种危及生命的并发症。除了激活促炎细胞因子的产生外,过度的肺扩张还直接影响血气屏障和肺血管通透性。为了研究激动剂刺激后肺内皮细胞(EC)单层完整性的恢复是否依赖于所施加的周期性拉伸(CS)的幅度,以及这些效应如何与小GTP酶Rac和Rho的差异激活相关联,将肺EC置于生理(5%伸长)或病理(18%伸长)相关水平的CS下。病理CS增强了凝血酶诱导的间隙形成并延迟了单层恢复,而生理CS在凝血酶作用50分钟后诱导了几乎完全的EC恢复,伴随着粘着斑和皮质肌动蛋白的外周重新分布。与对单层完整性的不同影响一致,18%的CS增强了凝血酶诱导的Rho激活,而5%的CS在EC恢复阶段促进了Rac激活。Rac抑制显著减弱了凝血酶刺激后单层完整性的恢复。生理CS预处理(5% CS,24小时)在逐步增加到18% CS(30分钟)和凝血酶刺激后增强了EC细胞旁间隙的分辨率。这些结果表明CS幅度以及Rac和Rho之间的平衡在肺EC屏障的机械化学调节中起关键作用。