病理生理刺激对剪切应力诱导的内皮细胞中内皮型一氧化氮合酶表达上调的调节作用。
Modulation by pathophysiological stimuli of the shear stress-induced up-regulation of endothelial nitric oxide synthase expression in endothelial cells.
作者信息
Malek A M, Izumo S, Alper S L
机构信息
Department of Neurosurgery, Brigham and Women's Hospital, Children's Hospital, and Harvard Medical School, Boston, Massachusetts, USA.
出版信息
Neurosurgery. 1999 Aug;45(2):334-44; discussion 344-5. doi: 10.1097/00006123-199908000-00028.
OBJECTIVE
Fluid shear stress (the frictional force resulting from blood flow) is a principal regulator of endothelial nitric oxide synthase (eNOS) expression. We examined the responses of eNOS messenger ribonucleic acid (mRNA) levels to dynamic shear stimuli in the presence of pathological risk modifiers.
METHODS
Confluent bovine aortic endothelial cells were subjected in vitro to shear stress (using a cone-plate viscometer) and to hydrostatic pressure (using a custom-built pressure chamber device). eNOS mRNA levels were quantitated by densitometric analysis of Northern blots.
RESULTS
In contrast to steady laminar shear stress, which elevated eNOS mRNA levels in a time- and dose-dependent manner (2.9- and 3.6-fold after 6 h at 4 and 20 dyn/cm2, respectively), steady hydrostatic pressure of 150 mm Hg decreased eNOS mRNA levels by 46%. eNOS mRNA up-regulation by shear stress was reversible after cessation of flow, although it was not influenced by previous shear exposure, and it was not mediated by a stable transferable factor. eNOS mRNA up-regulation by sinusoidal shear stress was frequency-dependent, with a moderate response at 1-Hz oscillating shear and no change at 0.3 Hz. Hypoxia (3% O2) suppressed eNOS mRNA expression by 78% under static conditions and by 72% under shear conditions but did not alter the fold induction by shear. Elevated glucose concentrations reduced eNOS mRNA levels in both resting and shear stress-exposed cells but did not reduce the fold induction by shear; the protein kinase C inhibitor calphostin C was without effect. Shear-induced up-regulation of eNOS mRNA was unaffected by changes in the medium partial pressure of CO2/pH, by the Na+/H+-exchanger inhibitor HOE694, or by aspirin. In contrast, the shear response was potentiated by homocysteine.
CONCLUSION
Both physical and chemical stimuli regulate eNOS mRNA levels in endothelial cells. Although eNOS mRNA expression is increased by shear stress, it is decreased by hydrostatic pressure, hypoxia, and elevated glucose levels. The effect of shear on eNOS mRNA expression involves a reversible, frequency-dependent process. These in vitro findings suggest possible contributions of the eNOS flow response to atherosclerosis, in the presence of systemic risk factors.
目的
流体剪切应力(由血流产生的摩擦力)是内皮型一氧化氮合酶(eNOS)表达的主要调节因子。我们研究了在存在病理风险调节因素的情况下,eNOS信使核糖核酸(mRNA)水平对动态剪切刺激的反应。
方法
将汇合的牛主动脉内皮细胞在体外施加剪切应力(使用锥板粘度计)和静水压力(使用定制的压力室装置)。通过对Northern印迹进行光密度分析来定量eNOS mRNA水平。
结果
与稳定的层流剪切应力不同,稳定的层流剪切应力以时间和剂量依赖性方式提高eNOS mRNA水平(分别在4和20 dyn/cm2下6小时后提高2.9倍和3.6倍),150 mmHg的稳定静水压力使eNOS mRNA水平降低46%。剪切应力引起的eNOS mRNA上调在血流停止后是可逆的,尽管它不受先前剪切暴露的影响,并且它不是由稳定的可转移因子介导的。正弦剪切应力引起的eNOS mRNA上调是频率依赖性的,在1 Hz振荡剪切时有适度反应,在0.3 Hz时无变化。缺氧(3% O2)在静态条件下使eNOS mRNA表达抑制78%,在剪切条件下抑制72%,但不改变剪切诱导的倍数。升高的葡萄糖浓度降低了静息和剪切应力暴露细胞中的eNOS mRNA水平,但不降低剪切诱导的倍数;蛋白激酶C抑制剂calphostin C无效。剪切诱导的eNOS mRNA上调不受培养基中CO2/pH分压变化、Na+/H+交换抑制剂HOE694或阿司匹林的影响。相反,同型半胱氨酸增强了剪切反应。
结论
物理和化学刺激均可调节内皮细胞中eNOS mRNA水平。虽然剪切应力可增加eNOS mRNA表达,但静水压力、缺氧和升高的葡萄糖水平可使其降低。剪切对eNOS mRNA表达的影响涉及一个可逆的、频率依赖性过程。这些体外研究结果表明在存在全身风险因素的情况下,eNOS血流反应可能对动脉粥样硬化有影响。
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