Department of Physiology and Biophysics, Institute of Biomedical Sciences, University of São Paulo, São Paulo, Brazil.
Clin Sci (Lond). 2011 Nov;121(10):449-58. doi: 10.1042/CS20110259.
Statins can have beneficial cholesterol-independent effects on vascular contractility, which may involve increases in the bioavailability of NO (nitric oxide) as a result of phosphorylation of eNOS (endothelial NO synthase). Although this has been attributed to phosphorylation of Akt (also known as protein kinase B), studies in cultured cells have shown that statins can phosphorylate AMPK (AMP-activated protein kinase); it is unknown whether this has functional effects in intact arteries. Thus we investigated the acute effects of simvastatin on resistance arterial contractile function, evaluating the involvement of NO, Akt and AMPK. Isolated rat mesenteric resistance arteries were mounted on a wire myograph. The effects of incubation (1 and 2 h) with simvastatin (0.1 or 1 μM) on contractile responses were examined in the presence and absence of L-NNA (N-nitro-L-arginine; 10 μM) or mevalonate (1 mM). Effects on eNOS, phospho-eNOS (Ser1177), and total and phospho-Akt and -AMPK protein expression were investigated using Western blotting. The effect of AMPK inhibition (compound C, 10 μM) on eNOS phosphorylation and contractile responses were also studied. Simvastatin (1 μM, 2 h) significantly reduced constriction to U46619 and phenylephrine and enhanced dilations to ACh (acetylcholine) in depolarized, but not in U46619-pre-constricted arteries. These effects were completely and partially prevented by L-NNA and mevalonate respectively. Simvastatin increased eNOS and AMPKα phosphorylation, but had no effect on Akt protein expression and phosphorylation after 2 h incubation. Compound C prevented the effects of simvastatin on eNOS phosphorylation and contractility. Thus simvastain can acutely modulate resistance arterial contractile function via mechanisms that involve the AMPK/phospho-eNOS (Ser1177)/NO-dependent pathway.
他汀类药物可以对血管收缩性产生有益的胆固醇非依赖性作用,这可能涉及由于 eNOS(内皮型一氧化氮合酶)的磷酸化而增加 NO(一氧化氮)的生物利用度。尽管这归因于 Akt(也称为蛋白激酶 B)的磷酸化,但在培养细胞中的研究表明,他汀类药物可以磷酸化 AMPK(AMP 激活的蛋白激酶);尚不清楚这是否对完整动脉具有功能作用。因此,我们研究了辛伐他汀对阻力动脉收缩功能的急性影响,评估了 NO、Akt 和 AMPK 的参与情况。将分离的大鼠肠系膜阻力动脉安装在金属丝肌动描记器上。在存在和不存在 L-NNA(N-硝基-L-精氨酸;10 μM)或甲羟戊酸(1 mM)的情况下,检查了孵育(1 和 2 小时)辛伐他汀(0.1 或 1 μM)对收缩反应的影响。使用 Western 印迹法研究了 eNOS、磷酸化 eNOS(Ser1177)以及总和磷酸化 Akt 和 -AMPK 蛋白表达的影响。还研究了 AMPK 抑制(化合物 C,10 μM)对 eNOS 磷酸化和收缩反应的影响。辛伐他汀(1 μM,2 小时)显著减少 U46619 和苯肾上腺素引起的收缩,并增强去极化但不增强 U46619 预收缩的动脉对 ACh(乙酰胆碱)的扩张。这些作用分别被 L-NNA 和甲羟戊酸完全和部分阻止。辛伐他汀增加了 eNOS 和 AMPKα 的磷酸化,但孵育 2 小时后对 Akt 蛋白表达和磷酸化没有影响。化合物 C 阻止了辛伐他汀对 eNOS 磷酸化和收缩性的影响。因此,辛伐他汀可以通过涉及 AMPK/磷酸化 eNOS(Ser1177)/NO 依赖性途径的机制,急性调节阻力动脉收缩功能。
