Antihypertensive drugs and reversing of endothelial dysfunction in hypertension

Essential hypertension is associated with impaired endothelium-dependent vasodilation and is caused mainly by production of oxygen free radicals that can destroy nitric oxide (NO), impairing its beneficial and protective effects on the vessel wall. Antihypertensive drugs can improve or restore endothelium-dependent vasodilation depending on their ability to counteract the mechanisms that impair endothelial function. Although treatment with atenolol gives negative results in peripheral subcutaneous and muscle microcirculation, acute nebivolol exerts a modest vasodilating effect in the forearm circulation. Whether this compound can activate NO production in essential hypertensive patients is controversial. Calcium entry blockers, particularly the dihydropyridine-like drugs, can reverse impaired endothelium-dependent vasodilation in different vascular districts, including the subcutaneous, epicardial, and peripheral arteries and forearm circulation. In the forearm circulation, nifedipine and lacidipine can improve endothelial dysfunction by restoring NO availability. Angiotensin-converting enzyme (ACE) inhibitors, however, seem to improve endothelial function in subcutaneous, epicardial, and renal circulation, but are ineffective in potentiating the blunted response to acetylcholine in the forearm of patients with essential hypertension. Finally, recent evidence suggests angiotensin II receptor antagonists can restore endothelium-dependent vasodilation t acetylcholine in subcutaneous, but not in the forearm muscle, microcirculation. However, treatment with an angiotensin II receptor antagonist can improve basal NO release and decrease the vasoconstrictor effect of endogenous endothelin-1.     

Hypertension, obesity, erectile dysfunction. What kind of drug to choose

Hypertension is one of the most common cardiovascular diseases. The development and progression of hypertension is associated with prolonged hyper activation of the renin-angiotensin-aldosterone system. ACE inhibitors and angiotensin receptor blockers (ARBs) are highly effective medicines and are widely used in the treatment of cardiovascular diseases: hypertension, congestive heart failure, coronary heart disease. The main pharmacological effects of ACE inhibitors and ARBs are hypotensive, neurohumoral, antiproliferative, cardio- and nefroprotective functions, as well as constantly improving endothelial function. In accordance with the article, hypertensive effectiveness, tolerability and organ-protective properties of valsartan are noticeable among patients with hypertension, obesity and erectile dysfunction, taking this medicine.     

Angiotensin-converting enzyme inhibitors and angiotensin receptor blockers in atherosclerosis

Angiotensin-converting enzyme (ACE) inhibitors and angiotensin receptor blockers (ARBs) effectively interfere with the renin-angiotensin system and exert various beneficial actions on cardiac and vascular structure and function, beyond their blood pressure-lowering effects. Randomized, controlled clinical trials have shown that ACE inhibitors improve endothelial function, cardiac and vascular remodeling, retard the anatomic progression of atherosclerosis, and reduce the risk of myocardial infarction, stroke, and cardiovascular death. Therefore, these agents are recommended in the treatment of a wide range of patients at risk for adverse cardiovascular outcomes, including those with coronary disease, prior stroke, peripheral arterial disease, high-risk diabetes, hypertension, and heart failure. ARBs are effective blood pressure-lowering and renoprotective agents and can be used in heart failure in patients who do not tolerate ACE inhibitors. The role of ARBs in the prevention of atherosclerosis and its sequelae is currently under investigation. The use of combined ACE inhibitor plus ARB therapy offers theoretical advantages over the use of each of these agents alone and is also under investigation in large, randomized clinical trials.     

血管紧张素转换酶基因多态性对冠心病患者血管内皮舒张功能的影响

目的:观察血管紧张素转换酶(ACE)基因多态性对冠心病患者内皮功能的影响及其抑制剂的干预作用.方法:选取冠心病患者(冠心病组)68例,对照组69例,聚合酶链反应(PCR)检测ACE基因插入/缺失(L/D)多态性,超声检测肱动脉内皮功能.结果:冠心病组DD基因型明显高于对照组.冠心病组ACE各基因型内皮依赖性舒张功能均低于对照组,DD基因型最为明显;非内皮依赖性舒张功能差异无显著性.血管紧张素转换酶抑制剂(ACEI)治疗后冠心病组各型肱动脉内皮依赖性舒张功能与治疗前比较均有显著性改善,其中DD基因型改善最为明显.结论:冠心病患者血管内皮功能异常与ACE基因I/D多态性相关.ACEI可以改善内皮功能,特别是对DD基因型患者改善更为明显.     

Modulating atherosclerosis through inhibition or blockade of angiotensin

Angiotensin-convertng enzyme (ACE) inhibitors are well recognized for their benefits in treating hypertension and congestive heart failure and preventing postmyocardial infarction heart failure or left ventricular (LV) dysfunction. Recently, blockade of the angiotensin II type 1 (AT1) receptor was shown to reduce cardiovascular events in hypertensive subjects with LV hypertrophy. Several lines of evidence are now converging to show that ACE inhibitors may affect the atherosclerotic process itself. Emerging clinical data indicate that angiotensin-receptor blockers (ARBs) may possibly modulate atherosclerosis as well. The antiatherogenic properties of ACE inhibitors and ARBs may derive from inhibition or blockade of angiotensin II, now recognized as an agent that increases oxidative stress.Angiotensin-converting enzyme inhibition and angiotensin-receptor blockade also increase endothelial nitric oxide formation, which improves endothelial function. In contrast to the effects of ARBs, the vascular effects of ACE inhibitors may, in part, be mediated by an increase in bradykinin. This article reviews some of the biologic mechanisms whereby ACE inhibitors and ARBs may modulate atherosclerosis.     

为什么血管紧张素转化酶抑制剂能降低高血压患者死亡率?

最新荟萃分析发现,肾素-血管紧张素(Ang)-醛固酮系统(RAAS)抑制剂能降低高血压患者死亡率,其治疗获益全部源于血管紧张素转化酶(ACE)抑制剂(ACEIs),而非血管紧张素受体拮抗剂(ARBs)。RAAS可以归纳为2条轴:ACE-AngⅡ(1-8)-AT1受体轴和ACE2-Ang(1-7)-Mas受体轴,ACEIs对RAAS的2条轴均发挥良好作用,而ARBs主要作用于前者。各个指南推荐高血压相关心血管疾病治疗优先选择ACEIs,对不能够耐受者选择ARBs。我们应当重视ACEIs在高血压、冠心病、心肌梗死和心力衰竭防治中的应用,目的是降低心血管疾病患病率和死亡率的风险。     

In vivo measurement of endothelium-dependent vasodilation with substance P in man.

Endothelial cells synthesize and metabolize vasoactive substances which are involved in the regulation of vascular tone. Among these factors, the endothelium-derived nitric oxide (NO) appears to be of major importance. Many studies observed an impairment of the generation, release, or the diffusion of endothelial NO across the vascular intima in laboratory animals with various experimental diseases such as hypercholesterolemia, atherosclerosis and hypertension. In human coronary arteries obtained from explanted hearts impaired endothelium-dependent relaxations were measured in atherosclerotic segments. The hypothesis of a decreased NO mediated vasodilation in patients with coronary artery disease was further underscored by in vivo studies in man using intracoronary infusions of the endothelium-dependent vasodilator acetylcholine and quantitative coronary angiographic measurements of the diameter changes. From these observations it was assumed that endothelial dysfunction, in particular a profound inability of the coronary endothelium to relax via NO dependent mechanisms may play an important role in the pathogenesis of abnormal coronary vasomotion. However, further investigations in man reveal that the ability of the coronary endothelium of patients with coronary artery disease or vasospastic angina to produce endothelial NO is less affected as judged from the effects of acetylcholine. In recent investigations a largely preserved endothelial function could be measured in these patients when the endothelium-dependent vasodilator substance P was used as a tool for the measurement of NO dependent relaxation. Thus, endothelial dysfunction does not appear to serve as a major cause of abnormal vasoconstriction in coronary artery disease or vasospastic angina in man.     

Different effects of antihypertensive drugs on endothelial dysfunction

Since endothelial dysfunction may significantly contribute to the pathophysiology of hypertension and its complications, its modification seems to be a very attractive means to favourably affect the development of atherosclerosis and cardiovascular events in hypertensive patients. However, not all antihypertensive drugs consistently improve endothelial dysfunction. While first-generation beta-blockers showed contrasting or null effects on endothelial function, newer beta-blockers of the third generation, such as carvedilol and nebivolol, seem to be provided with specific endothelium-mediated vasodilating effects. Calcium channel blockers are generally able to increase endothelium-dependent vasodilation in several vascular beds, in patients with essential hypertension, probably through multiple mechanisms. Most studies have shown thatACE inhibitors favourably affect endothelial function mainly in the subcutaneous, epicardial and renal circulation, not only by inhibiting the effects of angiotensin II on the endothelium, but also by enhancing bradykinin-induced vasodilation, probably a hyperpolarization-related effect. On the other hand, discordant evidence is available about the effects of angiotensin II receptor type I blockers on endothelial function in patients with essential hypertension, atherosclerosis or diabetes.There are data suggesting that an increased activity of the endothelin- I system may play a role in the blunted endothelium-dependent vasorelaxation of hypertensive patients, an effect that could be contrasted by the use of endothelin-I receptor antagonists. However, to date no substantial clinical efficacy of endothelin-I receptor blockers has been shown in patients with essential hypertension. Finally, other possibly useful compounds in restoring impaired endothelial function in hypertension are some antioxidant agents such as vitamin C, folic acid, the cofactor tetrahydrobiopterin (BH4), L-arginine and the drugs of the statin class.     

冠心病合并2型糖尿病患者的血清AGEs与内皮依赖性血管舒张功能关系探讨

目的　探讨冠心病合并 2型糖尿病 (2 - DM)患者内皮依赖性血管舒张功能与血清糖基化终产物(AGEs)水平变化及二者的关系。方法　选择 6 0例冠心病合并 2 - DM患者为治疗组 ,在冠心病综合治疗的基础上给予胰岛素或其他降糖药物控制血糖 ;另选 6 0例查体健康者为对照组。检测两组血清 AGEs、NO水平 ,采用 Jud-kins法进行选择性冠状动脉造影 ,高分辨超声技术检测肱动脉的血管舒张功能。结果　治疗组治疗前后血清AGEs、NO水平及内皮依赖性血管舒张功能均与对照组有明显差异 (P <0 .0 5 ,<0 .0 1) ,且治疗组治疗前后上述指标亦均有明显差异 (P <0 .0 1)。内皮依赖性血管舒张功能减弱程度与血清 AGEs水平呈负相关 (r =- 0 .39,P <0 .0 1) ,血清 NO水平与血清 AGEs水平呈负相关 (r=- 0 .31,P <0 .0 1)。结论　冠心病合并 2 - DM患者内皮依赖性血管舒张功能明显减弱 ,血清 AGEs水平明显升高 ,可能是 AGEs削弱了其内皮依赖性血管舒张功能。长期良好的血糖控制可降低冠心病合并 2 - DM患者血清 AGEs水平 ,增加血液中 NO水平 ,改善其内皮依赖性血管舒张功能     

Endothelium, aging, and hypertension

Endothelium plays a primary role in modulating vascular tone and structure through production of the relaxing factor nitric oxide (NO), which also protects the vessel wall against the pathogenesis of atherosclerosis and thrombosis. A dysfunctioning endothelium due to reduced NO availability and increased production of oxidative stress is considered an early indicator of atherothrombotic damage and of cardiovascular events. Aging is associated with the development of cardiovascular structural and functional alterations, which can explain the age-related increase in cardiovascular risk. Advancing age is associated with endothelial dysfunction in both normotensive subjects and essential hypertensive patients, an alteration caused by a progressive impairment of the NO pathway and production of oxidative stress. Once oxidative stress production becomes detectable, NO availability is totally compromised. Essential hypertension represents a mere acceleration of the changes induced by aging on endothelial function. Currently, dynamic physical activity represents the only effective intervention in preventing age-related impaired endothelium-dependent vasodilation in aged healthy individuals.     

Vasoprotection by nitric oxide: mechanisms and therapeutic potential

Endothelial production of nitric oxide (nitrogen monoxide, NO) has become a major research area in vascular biology. Some of the most important effects that NO exerts in the vascular wall are potentially vasoprotective, because these effects maintain important physiological functions such as vasodilation, anticoagulation, leucocyte adhesion, smooth muscle proliferation, and the antioxidative capacity. During the last 2 decades it has become apparent that a variety of diseases are associated with an impairment of endothelium-dependent NO activity. One of the major causes is believed to be an increased production of reactive oxygen species, in particular superoxide, which have been shown to interfere with many steps of the NO--cyclic guanosine monophosphate (cGMP) pathway. This phenomenon has been found in diverse conditions such as atherosclerosis, hypertension, diabetes, hypercholesterolemia, heart failure, and cigarette smoking. The aim of this review is to examine the cellular and molecular mechanisms whereby NO exerts potentially vasoprotective effects and to discuss pharmacologic approaches targeting the NO pathway in view of their potential to improve endothelial function and to reduce the progression of atherosclerotic vascular disease. We conclude that there is compelling evidence for vasoprotective actions of NO which are mediated by cGMP-dependent and cGMP-independent mechanisms. These effects may contribute to the beneficial effects of established drugs such as ACE inhibitors or statins. Unfortunately, clinical data on the effect of long-term treatment with nitrates on the progression of coronary artery disease are lacking. Finally, L-arginine or new activators of the NO pathway may become therapeutic options in the future.     

Randomized, double-blind, placebo-controlled study on effects of raloxifene and hormone replacement therapy on plasma no concentrations, endothelin-1 levels, and endothelium-dependent vasodilation in postmenopausal women

The endothelium is thought to play an important role in the genesis of atherosclerosis, and several lines of evidence suggest that the effect of an intervention on endothelial function might predict its involvement in coronary disease progression and in the rate of cardiovascular events. Estrogen has direct effects on the blood vessel wall, indicating that vascular endothelium may play a key role in the cardiovascular protective effects of hormone replacement therapy (HRT). Raloxifene relaxes coronary arteries in vitro by an estrogen receptor-dependent and NO-dependent mechanism, thus suggesting that this selective estrogen receptor modulator could also have beneficial effects on endothelial function. This study compared the effects of HRT and raloxifene on NO products, endothelin-1 plasma levels, and endothelium-dependent vasodilatation in postmenopausal women. Healthy postmenopausal women (n=90) were enrolled in a double-blind, randomized, placebo-controlled, 6-month trial. Women were randomly assigned to receive continuous HRT (1 mg 17beta-estradiol combined with 0.5 mg norethisterone acetate), raloxifene (60 mg/d), or placebo for 6 months. Flow-mediated endothelium-dependent vasodilation of the brachial artery, plasma NO concentrations, and endothelin levels were measured at baseline and after 6 months of therapy. The mean baseline level of NO breakdown products was 26.5+/-10.7 micromol/L and increased to 36.3+/-11.4 micromol/L after 6 months of treatment with raloxifene. The mean baseline plasma endothelin level was 17.3+/-8.9 pg/mL and decreased to 11.5+/-2.1 pg/mL after 6 months of treatment with the selective estrogen receptor modulator. The mean baseline ratio of NO (breakdown products) to endothelin was also significantly increased at the end of treatment with raloxifene. Postmenopausal women treated with HRT had similar changes in plasma nitrites/nitrates and endothelin levels as well as in the ratio of NO to endothelin. In contrast, these markers of endothelial function did not change in the placebo-treated women. Flow-mediated endothelium-dependent vasodilation of the brachial artery was 8.3+/-2.1% at baseline and increased to 12.3+/-2.1% after 6 months of treatment with raloxifene. HRT also caused a significant and similar increase in flow-mediated endothelium-dependent vasodilation. No change in flow-mediated vasodilation was observed in the participants treated with placebo. We conclude that raloxifene therapy and HRT influence endothelial function and improve flow-mediated endothelium-dependent vasodilation to a comparable extent in healthy postmenopausal women at least after a 6-month treatment period. However, further investigation is warranted to enhance our understanding of the mechanisms of the effect of raloxifene on vascular function and to determine whether its effect on endothelial function may contribute to the reduction in cardiovascular-related morbidity and mortality.     

Inhibition of the renin angiotensin system: Implications for the endothelium

The endothelium is critically involved in modulating vascular tone through the release of vasodilator (mainly nitric oxide; NO) and vasoconstrictor agents. Under normal conditions the endothelium induces NO-mediated vasodilation, and opposes cell adhesion and thrombosis. Angiotensin II-induced generation of reactive oxygen species plays a key role in the pathophysiology of endothelial dysfunction by reducing NO bioavailability. Endothelial dysfunction is associated with several pathologic conditions, including hypertension and diabetes, and is characterized by altered vascular tone, inflammation, and thrombosis in the vascular wall. Inhibition of the renin-angiotensin-aldosterone system has induced beneficial effects on endothelial function in animals and humans. Angiotensin-converting enzyme inhibitors, angiotensin receptor blockers, and mineralocorticoid receptor antagonists have improved endothelial function in hypertension and diabetes, slowed the progression of atherosclerosis, and reduced the risk associated with cardiovascular disease.     

Asymmetric dimethylarginine--a novel cardiovascular risk factor

Understanding metabolism of nitric oxide (NO), signal molecule releasing from endothelial cells and influencing vascular tone, belongs to the most remarkable knowledge of last ten years. NO increases vascular tone, inhibits adhesion of monocytes and leukocytes to the vascular endothelium and reduces atherogenic process. Low NO level is one of pathogenic factors starting cardiovascular diseases. Asymmetric dimethylarginine (ADMA) is an endogenous inhibitor of enzyme NO synthase, enzyme catalyzing NO production from arginine. This article gives a brief overview of contemporary state of the relation between ADMA and cardiovascular diseases. Increased ADMA levels are associated with reduced NO synthesis as assessed by impaired endothelium-dependent vasodilatation. In several prospective studies, ADMA evolved as a marker of cardiovascular risk. In the first chapters is described state of the art of biosynthesis, degradation and excretion of ADMA in connection with endothelial dysfunction, coronary artery disease, chronic heart failure, cardiovascular risk in haemodialysis patients, diabetes mellitus, hypertension, lipid metabolism disorders and intensive care unit treatment. Next chapters shortly summarize methods of ADMA detection and their applications. In conclusion clinical relevance of measurement of ADMA levels as a marker of endothelial dysfunction is discussed. Future research tasks of ADMA lead to prospective studies with different types of patients and also healthy population. Moreover ADMA is becoming a goal for pharmacotherapeutic intervention to improve endothelium-dependent vascular function in subjects with high ADMA levels.     

Effects of Antihypertensive Treatment on Endothelial Function

Essential hypertension is characterized by endothelial dysfunction due to reduced availability of nitric oxide (NO) secondary to increased generation of oxygen-free radicals. Some antihypertensive drugs may improve or restore endothelial function independently of their blood pressure lowering effect. The newer generation of β-blockers, such as nebivolol and carvedilol, which provide antioxidant activity, can improve endothelial function in patients with hypertension. Dihydropyridine and non-dihydropyridine calcium antagonists reverse impaired endothelium-dependent vasodilatation in different vascular districts, through a mechanism related to an antioxidant effect. However, conflicting results are found in the brachial artery. Angiotensin-converting enzyme (ACE) inhibitors improve endothelial function in subcutaneous, epicardial, brachial, and renal circulation, but they are ineffective in potentiating the impaired response to acetylcholine in the forearm of hypertensive patients. Angiotensin II receptor antagonists can restore endothelium-dependent vasodilatation to acetylcholine in subcutaneous microcirculation but not in that of the forearm muscle. They also improve basal NO release and decrease the vasoconstrictor effect of endogenous endothelin-1. Large-scale clinical trials are required to definitively demonstrate that treatment of endothelial dysfunction can improve the prognosis of patients with essential hypertension.     

Prevention of macrovascular disease in type 2 diabetic patients: blockade of the renin-angiotensin-aldosterone system

Type 2 diabetes is reaching epidemic proportions throughout the world, which has major health implications as such patients have considerably increased risk of coronary heart disease (CHD). The renin-angiotensin-aldosterone system (RAAS) is involved in a wide range of adverse effects that contribute to the pathogenesis of CHD in diabetic patients, including vascular haemodynamic regulation, oxidative stress and hypertrophy of vascular cells. Angiotensin-converting enzyme (ACE) inhibitors and angiotensin receptor blockers (ARBs) are widely used in clinical practice. In diabetic patients ACE inhibitors and ARBs both effectively lower blood pressure, particularly in combination with low-dose thiazide diuretics, and may be considered first line therapies in the treatment of diabetic hypertension. Additionally they have important renoprotective actions independent of their blood pressure-lowering action, which is of particular benefit in diabetic patients, who are at increased risk of developing nephropathy. ARBs are generally well tolerated, but ACE inhibitor therapy is associated with some side effects such as cough and both may result in hyperkalaemia. Blockade of the RAAS with these agents appears to play an important role not only in protecting from renal disease, but it may also help to reduce morbidity and mortality from certain vascular diseases in diabetic patients.     

Effect of ACE inhibitors on endothelial dysfunction: Unanswered questions and implications for further investigation and therapy

Summary Experimental studies have suggested that angiotensin-converting enzyme (ACE) inhibitors may have an important role in blocking the progression of and/or reversing endothelial dysfunction. The extrapolation of these experimental studies to the clinical situation has, however, been disappointing. Studies of forearm-mediated endothelial vasodilatation in patients with hypertension with captopril, enalapril, and cilazapril have been negative. The finding of the Trial in Reversing Endothelial Dysfunction (TREND) that the administration of quinapril to normotensive patients with coronary artery disease in part restores endothelial-mediated coronary vasodilation, as assessed by intracoronary administration of acetylcholine, has important implications for future therapy and raises several important questions. The differences in the TREND and previous studies of ACE inhibitors on endothelial dysfunction may be due to mechanistic differences in endothelial dysfunction in patients with coronary artery disease and hypertension. Although in general there has been a good correlation between endothelial dysfunction as assessed by forearm flow and coronary endothelial dysfunction as assessed by acetylcholine, these vascular beds may be affected differently by therapeutic interventions, especially with an ACE inhibitor, which may affect sheart stress and angiotensin II formation in different vascular beds differently. Third, one needs to question whether the effect of quinapril on coronary endothelial dysfunction is a class effect or unique to quinapril. It will be necessary to test the effectiveness of other ACE inhibitors on coronary endothelial dysfunction in humans before concluding that the beneficial effects of quinapril are due to a class effect.     

ACE genotype and endothelium-dependent vasodilation of conduit arteries and forearm microcirculation in humans

The ACE gene is a candidate gene for cardiovascular disease. Endothelial dysfunction is considered an intermediate phenotype in the pathogenesis of hypertension and atherosclerosis. We evaluated the role of ACE gene polymorphism in endothelial function of young healthy humans. We assessed ACE genotype (deletion [D]/insertion [I] polymorphism) in 92 young healthy individuals. In 88 of them, endothelium-dependent (flow-mediated) vasodilation and endothelium-independent (nitroglycerin-induced) vasodilation were measured in the common femoral artery and in the brachial (n=84) artery by echo Doppler technique. In 35 subjects, we also applied the forearm perfusion technique to quantify the responses of the forearm vascular bed to 3 increasing doses of 2 endothelium-dependent vasodilators (acetylcholine and bradykinin) and 1 endothelium-independent vasodilator (sodium nitroprusside). The D allele of the ACE gene was associated with a significant blunting (Delta approximately 26%) of endothelium-dependent vasodilation in the femoral artery (P=0.02) but not in the brachial artery (P=0.55) or in the forearm microcirculation (P=0.70 to 0.80). Endothelium-independent vasodilation was unaffected by the ACE genotype. In young healthy humans, the D allele of the ACE gene is associated with selective endothelial dysfunction of the femoral artery. It remains to be determined whether this association discloses a causal role in vascular, particularly peripheral artery, disease.     

Effect of enalaprilat on nitric oxide activity in coronary artery disease.

Atherosclerosis is associated with vascular endothelial dysfunction and reduced nitric oxide (NO) activity. Enhancement of NO activity may have an antiatherogenic action. This study was performed to determine whether angiotensin-converting enzyme (ACE) inhibition improves peripheral vascular NO activity in patients with atherosclerosis. In the femoral circulation of 43 patients with atherosclerosis and 10 controls, we studied endothelium-dependent vasodilation with bradykinin and acetylcholine, and endothelium-independent vasodilation with sodium nitroprusside before and after enalaprilat. In 22 patients, we repeated these infusions in the presence of L-N(G) monomethyl arginine (L-NMMA). Doppler-femoral artery flow velocity was measured. Before ACE inhibition, acetylcholine responses were depressed in patients with atherosclerosis compared with controls (p = 0.03). Enalaprilat did not alter femoral vascular tone at rest or vasodilation with sodium nitroprusside, but potentiated bradykinin-mediated vasodilation in patients (p<0.001) and controls (p = 0.02). Acetylcholine-mediated vasodilation was augmented only in patients (p<0.001), but not in control subjects. L-NMMA inhibited the potentiation by enalaprilat of acetylcholine and bradykinin responses. This study demonstrates that ACE inhibition selectively improves endothelial dysfunction in human atherosclerosis by enhancing NO activity. The antithrombotic and antiproliferative effects of NO may reduce adverse manifestations related to atherosclerosis during long-term therapy.     

Clinical importance of endothelial function in arteriosclerosis and ischemic heart disease.

The vascular endothelium is a dynamic endocrine organ that regulates vascular tone, local homeostasis, and the fibro-inflammatory-proliferative process. These responses are mediated by various substances released from the endothelium in response to physiologic stimuli, including prostacyclin, endothelin and, most importantly, nitric oxide (NO). NO mediates vasodilation and inhibits platelet aggregation, thrombus formation, expression of adhesion molecules and chemokines for leukocytes, and oxidative stress. It also attenuates growth and proliferation of vascular smooth muscle cells. Risk factors for atherosclerosis, such as hypercholesterolemia, hypertension, diabetes and cigarette smoking, impair endothelial function, which leads to atherosclerosis and results in ischemic manifestations such as acute coronary syndrome and stroke. Thus, therapeutic intervention aimed at increasing NO bioavailability by statins or angiotensin-converting enzyme inhibitors might improve patient prognosis. Vascular endothelial function is an important and clinically relevant therapeutic target for cardiovascular disease.