Ming Xiu-Fen, Barandier Christine, Viswambharan Hema, Kwak Brenda R, Mach François, Mazzolai Lucia, Hayoz Daniel, Ruffieux Jean, Rusconi Sandro, Montani Jean-Pierre, Yang Zhihong
Vascular Biology, Department of Medicine, Division of Physiology, University of Fribourg, Fribourg, Switzerland.
Circulation. 2004 Dec 14;110(24):3708-14. doi: 10.1161/01.CIR.0000142867.26182.32. Epub 2004 Nov 29.
Arginase competes with endothelial nitric oxide synthase (eNOS) for the substrate l-arginine and decreases NO production. This study investigated regulatory mechanisms of arginase activity in endothelial cells and its role in atherosclerosis.
In human endothelial cells isolated from umbilical veins, thrombin concentration- and time-dependently stimulated arginase enzymatic activity, reaching a 1.9-fold increase (P<0.001) at 1 U/mL for 24 hours. The effect of thrombin was prevented by C3 exoenzyme or the HMG-CoA reductase inhibitor fluvastatin, which inhibit RhoA, or by the ROCK inhibitors Y-27632 and HA-1077. Adenoviral expression of constitutively active RhoA or ROCK mutants enhanced arginase activity (approximately 3-fold, P<0.001), and the effect of active RhoA mutant was inhibited by the ROCK inhibitors. Neither thrombin nor the active RhoA/ROCK mutants affected arginase II protein level, the only isozyme detectable in the cells. Moreover, a significantly higher arginase II activity (1.5-fold, not the protein level) and RhoA protein level (4-fold) were observed in atherosclerotic aortas of apoE-/- compared with wild-type mice. Interestingly, l-arginine (1 mmol/L), despite a significantly higher eNOS expression in aortas of apoE-/- mice, evoked a more pronounced contraction, which was reverted to a greater vasodilation by the arginase inhibitor l-norvaline (20 mmol/L) compared with the wild-type animals (n=5, P<0.001).
Thrombin enhances arginase activity via RhoA/ROCK in human endothelial cells. Higher arginase enzymatic activity is involved in atherosclerotic endothelial dysfunction in apoE-/- mice. Targeting vascular arginase may represent a novel therapeutic possibility for atherosclerosis.
精氨酸酶与内皮型一氧化氮合酶(eNOS)竞争底物L-精氨酸,从而降低一氧化氮(NO)的生成。本研究调查了内皮细胞中精氨酸酶活性的调控机制及其在动脉粥样硬化中的作用。
在从人脐静脉分离的内皮细胞中,凝血酶浓度和时间依赖性地刺激精氨酸酶的酶活性,在1 U/mL作用24小时时,活性增加1.9倍(P<0.001)。C3外切酶或HMG-CoA还原酶抑制剂氟伐他汀可阻止凝血酶的作用,它们抑制RhoA,ROCK抑制剂Y-27632和HA-1077也有此作用。组成型活性RhoA或ROCK突变体的腺病毒表达增强了精氨酸酶活性(约3倍,P<0.001),活性RhoA突变体的作用被ROCK抑制剂抑制。凝血酶和活性RhoA/ROCK突变体均未影响精氨酸酶II蛋白水平,精氨酸酶II是细胞中唯一可检测到的同工酶。此外,与野生型小鼠相比,在载脂蛋白E基因敲除(apoE-/-)小鼠的动脉粥样硬化主动脉中观察到精氨酸酶II活性显著更高(1.5倍,而非蛋白水平)以及RhoA蛋白水平(4倍)。有趣的是,尽管apoE-/-小鼠主动脉中eNOS表达显著更高,但L-精氨酸(1 mmol/L)引起的收缩更为明显,与野生型动物相比,精氨酸酶抑制剂L-正缬氨酸(20 mmol/L)可使apoE-/-小鼠的收缩转变为更大程度的血管舒张(n=5,P<0.001)。
凝血酶通过RhoA/ROCK增强人内皮细胞中的精氨酸酶活性。更高的精氨酸酶活性参与apoE-/-小鼠的动脉粥样硬化内皮功能障碍。靶向血管精氨酸酶可能为动脉粥样硬化提供一种新的治疗方法。
