Thomas Münzel

Alterations of skeletal muscle in chronic heart failure.

BackgroundThe present study was designed to define the prevalence and characteristics of skeletal muscle alterations in patients with chronic heart failure (CHF) and their relation to exercise capacity. Methods and ResultsThe ultrastructure of skeletal muscle was analyzed by ultrastructural morphometry in 57 patients with CHF and 18 healthy controls. The volume density of mitochondria (Vvm) and the surface density (Svmc) of mitochondrial cristae were evaluated as a structural correlate of oxidative capacity of skeletal muscle. Vvm and Svmc were reduced by approximately 209% in patients with severe CHF irrespective of age and etiology. The cytochrome oxidase activity in mitochondria as determined by cytochemistry and subsequent morphometry in a subset of patients (n = 10) was significantly decreased in heart failure (p < 0.01). The capillary length density of skeletal muscle was reduced in CHF (n = 12, p < 0.05), and the fiber type distribution was shifted to type II fibers (n = 15, p < 0.05). Vvm and Svmc were significantly related to peak exercise Vo2 (r = 0.56, p < 0.001, n = 60) and to Vo2 at anaerobic threshold (r = 0.535, p < 0.0001, n = 60). In 16 patients with severe heart failure, Vvm was inversely related to the duration of heart failure (r = 0.545, p < c0.03). In 11 patients who underwent repeat biopsies after 4 months, a correlation was observed between the change in Vvm and the change in peak exercise Vo2 (r = 0.89, p < 0.Ol). ConclusionsThese findings indicate that patients with CHF develop significant ultrastructural abnormalities of skeletal muscle reflecting a depressed oxidative capacity of working muscle. It appears that these alterations of skeletal muscle contribute to the decreased exercise capacity of these patients but are, in principle, reversible by an effective treatment regimen.

Endothelial function in chronic congestive heart failure

There is evidence that the endothelium plays an important role in the control of human vascular tone by releasing endothelium-derived nitric oxide. The hypothesis that an impairment of this mechanism is involved in the increased peripheral vasoconstriction of patients with chronic congestive heart failure (CHF) was tested. Acetylcholine and N-monomethyl-L-arginine (L-NMMA), a specific inhibitor of nitric oxide synthesis from L-arginine, were infused in the brachial artery of healthy volunteer subjects (controls) and patients with severe CHF. The radial artery diameter was determined by a high-precision A-mode ultrasound device, using a 10 MHz probe. Forearm blood flow was calculated from vessel diameter and blood flow velocity measured simultaneously by Doppler. The blood flow response to acetylcholine was blunted in patients with CHF compared with that in control subjects. In contrast, the decrease in blood flow induced by L-NMMA was exaggerated in CHF, and the blood flow response to nitroglycerin was preserved. The changes in radial artery diameter induced by acetylcholine and L-NMMA were not significant in control subjects and CHF patients, but dilation of the radial artery by nitroglycerin was significantly reduced in CHF. The results demonstrate an impaired endothelium-dependent dilation of forearm resistance vessels in CHF, suggesting a reduced release of nitric oxide on stimulation. In contrast, the basal release of nitric oxide from endothelium of forearm resistance vessels is preserved or may even be enhanced, and may play an important compensatory role in chronic CHF by antagonizing neurohumoral vasoconstrictor forces in CHF.

Cigarette Smoking Potentiates Endothelial Dysfunction of Forearm Resistance Vessels in Patients With Hypercholesterolemia Role of Oxidized LDL

BACKGROUND Risk factors for atherosclerosis such as hypercholesterolemia and hypertension are associated with endothelial dysfunction of conduit and resistance vessels; however, the interaction of these risk factors and underlying mechanisms affecting endothelial function remain to be determined. The present study investigated the role of long-term smoking and hypercholesterolemia and their impact on endothelial function of peripheral resistance vessels in relation to plasma levels of autoantibodies against oxidized LDL, which has been implicated in the development of endothelial dysfunction and atherosclerosis. METHODS AND RESULTS The vascular responses to the endothelium-dependent agent acetylcholine (7.5, 15, 30, and 60 micrograms/min) and the endothelium-independent agent sodium nitroprusside (1,3, and 10 micrograms/min) were studied in normal control subjects (n = 10), patients with hypercholesterolemia (n = 15), long-term smokers (n = 15), and hypercholesterolemic patients who smoked (n = 15). Drugs were infused into the brachial artery, and forearm blood flow (FBF) was measured by venous occlusion plethysmography. The FBF responses to acetylcholine were significantly blunted in all three patient groups compared with normal control subjects (P < .05). The acetylcholine-induced increase in FBF was significantly attenuated in patients with hypercholesterolemia who smoked compared with hypercholesterolemic nonsmokers and normocholesterolemic smokers (P < .05 for both). The response to sodium nitroprusside was not statistically different in all four groups. Plasma levels of autoantibody titer against oxidized LDL were inversely related to acetylcholine-induced changes in FBF (r = -.53, P < .002) and were substantially increased in the group with both risk factors. CONCLUSIONS These results demonstrate that cigarette smoking and hypercholesterolemia synergistically impair endothelial function and that their combined presence is associated with increased plasma levels of autoantibodies against oxidized LDL. These observations raise the possibility that long-term smoking potentiates endothelial dysfunction in hypercholesterolemic patients by enhancing the oxidation of LDL.

Increased Superoxide in Heart Failure A Biochemical Baroreflex Gone Awry

Increased peripheral vascular resistance is a hallmark of advanced chronic congestive heart failure (CHF) and contributes to the phenomenon of “increased afterload” that complicates this condition. Multiple factors probably underlie this phenomenon, including increased water and sodium content of the vasculature, increased neurohormonal activation, and intrinsic abnormalities of the vasculature.1 During the past decade, it has also been shown that endothelium-dependent vasodilation is strikingly abnormal in both experimental animals and humans with compromised cardiac function.2 3 Given that endothelial regulation of vasomotion plays a major role in the control of systemic hemodynamics, this phenomenon is probably a major cause of increased systemic vascular resistance and afterload in heart failure. Because endothelial regulation of vascular tone is mediated predominantly by endothelium-derived nitric oxide (NO), numerous studies have examined abnormalities of the l-arginine/NO pathway in heart failure. Two major abnormalities have surfaced as important. Several studies have suggested that CHF leads to a decline in expression of endothelial cell NO synthase (eNOS), which is ultimately responsible for endothelial production of NO. Wang et al4 produced heart failure in dogs by cardiac pacing at a rapid rate for 4 weeks. Microvascular endothelial cells released markedly less nitrite (the stable degradation product of NO) than cells from hearts of normal animals. Using the same heart failure model, Smith and colleagues5 observed a decrease in the expression of both eNOS and cyclooxygenase 1, the enzyme responsible for production of prostacyclin. CHF is also associated with increased circulating levels of the cytokine TNF-α.6 In vitro, TNF-α increases degradation of eNOS mRNA, most likely via …

New Insights Into Mechanisms UnderlyIng Nitrate tolerance

The hemodynamic and anti-ischemic efficacy of organic nitrates is rapidly blunted due to the development of nitrate tolerance. The mechanisms underlying this phenomenon remain poorly understood and likely involve several independent factors. More recent experimental observations suggest that tolerance may be the consequence of intrinsic abnormalities of the vasculature, including enhanced vascular superoxide and endothelin production. Superoxide anions degrade nitric oxide derived from nitroglycerin, whereas autocrine-produced endothelin within vascular smooth muscle sensitizes the vasculature to circulating neurohormones, such as catecholamines and angiotensin II, all of which may compromise the vasodilator potency of nitroglycerin. Interestingly, these vascular consequences of in vivo nitroglycerin treatment can be mimicked by incubating cultured endothelial and smooth muscle cells with angiotensin II. Further, nitrate tolerance and rebound following sudden cessation of prolonged nitroglycerin therapy can be prevented by concomitant treatment with high-dose angiotensin-converting enzyme inhibition or angiotensin-I receptor blockade. These data strongly suggest that increased circulating levels of angiotensin II, which are encountered during in vivo nitroglycerin treatment, initiate cellular events that ultimately attenuate the nitroglycerin vasodilator effects during prolonged treatment periods.

Endothelial function in congestive heart failure

There is evidence that the endothelium plays an important role in the control of human vascular tone by releasing endothelium-derived nitric oxide and, therefore, a defective endothelial function could be involved in the increased peripheral vasoconstriction of patients with chronic congestive heart failure. To investigate endothelial function in humans in vivo, agents such as acetylcholine, a short-acting stimulator of the release of endothelium-derived nitric oxide, has been used. Conversely, N-mono-methyl-L-arginine, a specific inhibitor of nitric oxide synthesis from L-arginine, has recently been shown to decrease blood flow during infusion into the brachial artery of healthy volunteers (control subjects) by inhibiting the basal release of nitric oxide. Consistent with experimental studies, the blood flow response to acetylcholine is blunted in patients with chronic heart failure compared with healthy age-matched volunteers. In contrast, the decrease in blood flow induced by N-mono-methyl-L-arginine appears to be exaggerated in congestive heart failure. The blood flow response to nitroglycerin or sodium nitroprusside, endothelium-independent vasodilators, is usually preserved in patients with chronic, nonedematous heart failure, indicating a normal response of the vascular smooth muscle of resistance vessels to exogenous nitric oxide. In contrast, the dilator response of the radial artery diameter to nitroglycerin and flow-dependent dilation is impaired in patients with chronic heart failure, indicating that the abnormal flow-mediated relaxation of large arteries may be caused by both endothelial and structural abnormalities.(ABSTRACT TRUNCATED AT 250 WORDS)

Nitrate tolerance in epicardial arteries or in the venous system is not reversed by N-acetylcysteine in vivo, but tolerance-independent interactions exist.

N-acetylcysteine is assumed to reverse nitrate tolerance by replenishing depleted intracellular sulfhydryl groups, but data on interactions of N-acetylcysteine and nitrates in patients with stable angina are controversial and disappointing. Therefore, we studied the effect of N-acetylcysteine on nitrate responsiveness of epicardial arteries and of the venous system (assessed as changes in effective vascular compliance) in dogs (n = 12) during long-term nitroglycerin treatment (1.5 micrograms/kg/min i.v. for 5-6 days). In dogs with nitroglycerin-specific tolerance (shift of venous or epicardial artery dilation to 15-17-fold higher dosages), N-acetylcysteine (100 mg/kg i.v.) had no dilator effect and did not alter the dose-response relations of nitroglycerin. Yet, in nontolerant dogs (n = 17), N-acetylcysteine augmented (1.5-2.0-fold) the dilation of epicardial arteries and the reduction of peripheral vascular resistance induced by 0.5-1.5 micrograms/kg/min nitroglycerin. In vitro, the augmentation of purified guanylate cyclase activity by nitroglycerin (10-100 microM) was potentiated by N-acetylcysteine (0.01-1.0 mM) in saline or in canine plasma, but N-acetylcysteine alone was ineffective. We conclude that 1) N-acetylcysteine does not restore nitroglycerin responsiveness in tolerant epicardial arteries or veins in vivo, 2) a small, tolerance-independent augmentation of nitroglycerin-induced dilation may result from N-acetylcysteine-induced extracellular formation of a stimulant of guanylate cyclase from nitroglycerin.

Effect of chronic angiotensin-converting enzyme inhibition on endothelial function in patients with chronic heart failure

Chronic heart failure is associated with neurohumoral activation and alterations of the peripheral circulation and skeletal muscle. Several mechanisms are involved in the impaired peripheral perfusion, including increased sympathetic tone and increased vascular stiffness. Recently, data suggest an important role of the endothelium for perfusion of skeletal muscle in heart failure. Endothelium-dependent dilation of resistance vessels is blunted in patients with severe chronic heart failure and may be involved in the impaired reactive hyperemia in these patients. In conductance vessels, flow-dependent dilation and the nitroglycerin-induced dilator response is attenuated in congestive heart failure as compared to normal subjects, indicating both endothelial dysfunction and a defect of smooth muscle relaxation. Recent data suggest that angiotensin-converting enzyme (ACE) inhibitors can improve endothelial function of resistance vessels, reduce serum level of the soluble endothelial (vascular cell) adhesion molecule (VCAM-1) and, in addition, improve peripheral vascular function by reducing or limiting the influence of cyclo-oxygenase-dependent vasoconstricting factor(s). It is conceivable that these beneficial effects of chronic ACE inhibition are due, in part, to blockade of bradykinin degradation by the ACE and the increased endothelial synthesis of prostaglandins and/or the release of nitric oxide by enhanced tissue levels of bradykinin.

Dissociation of coronary vascular tolerance and neurohormonal adjustments during long-term nitroglycerin therapy in patients with stable coronary artery disease

OBJECTIVES We sought to examine whether long-term nitroglycerin treatment causes tolerance in large coronary arteries and whether the loss of vascular effects parallels neurohormonal adjustments. BACKGROUND Nitroglycerin therapy is associated with increased plasma renin activity and aldosterone levels and a decrease in hematocrit. It is assumed that nitroglycerin tolerance results in part from these neurohormonal adjustments and intravascular volume expansion. METHODS Three groups were studied: group I (n = 10), no prior nitroglycerin therapy; and group II (n = 10) and group III (n = 8), 24- and 72-h long-term nitroglycerin infusion (0.5 micrograms/kg body weight per min), respectively. Coronary artery dimensions were assessed using quantitative angiography. Plasma renin activity, plasma aldosterone and vasopressin levels and hematocrit were monitored before and during nitroglycerin infusions. RESULTS In group I, increasing intravenous concentrations of nitroglycerin caused a dose-dependent increase of the midportion of the left anterior descending coronary artery (baseline diameter 2.13 +/- 0.07 mm [mean +/- SEM], maximally by 22 +/- 2%) and left circumflex coronary artery (baseline diameter 2.08 +/- 0.07) mm, maximally by 22 +/- 3%). An intracoronary nitroglycerin bolus (0.2 mg) caused no further significant increase in diameter, indicating maximal dilation. In group II (n = 10), the baseline large coronary artery diameter under ongoing nitroglycerin was significantly larger than that in group I (left anterior descending artery 2.61 +/- 0.08 mm, left circumflex artery 2.57 +/- 0.08 mm). Additional intravenous and intracoronary nitroglycerin challenges did not cause further dilation, indicating maximally dilated vessels. At the same time, plasma renin activity, plasma aldosterone and vasopressin levels were significantly increased, and hematocrit significantly decreased. In group III patients, the baseline diameter of the left anterior descending artery and the left circumflex artery did not differ from that in patients without nitroglycerin pretreatment, indicating a complete loss of nitroglycerin coronary vasodilative effects. These patients showed no significant increase in circulating neurohormonal levels but a significant decrease in hematocrit. CONCLUSIONS Within 24 h of continuous nitroglycerin treatment, the coronary arteries were maximally dilated despite neurohormonal adjustments and signs of intravascular volume expansion. Within 3 days of nitroglycerin infusion, tolerance developed in the absence of neurohormonal activation. The dissociation of neurohormonal adjustments and tolerance in large coronary arteries indicates that after long-term nitroglycerin treatment, true vascular tolerance, perhaps from an intracellular tolerance step, may have developed.

Neurohormonal inhibition and hemodynamic unloading during prolonged inhibition of ANF degradation in patients with severe chronic heart failure.

BackgroundThe purpose of this study was to investigate the therapeutic potential of prolonged inhibition of atrial natriuretic factor (ANF) degradation in patients with severe chronic heart failure. Methods and ResultsThe effects of repeated doses of the endopeptidase inhibitor candoxatrilat (150 mg i.v.) were examined over a 24-hour period in patients with severe chronic heart failure (New York Heart Association class III-IV). Plasma α-hANF(99–126) was elevated at baseline (235±59 pg/ml), increased 2.5-fold at 2 hours after the first dose, and remained significantly elevated throughout the 24-hour protocol. In contrast, pro-hANF(31–67) decreased from 3,151±616 to 2,072±362 pg/ml (p < 0.05). Cardiac index (CI) increased only transiently after the first dose of candoxatrilat (CI, 2.11±0.2 to 2.67±0.28 I/min/m2, p < 0.05). Sodium excretion increased sixfold (p < 0.05) 2 hours after the first dose of candoxatrilat and remained significantly elevated throughout the protocol. Degree of natriuresis and diuresis in response to candoxatrilat was closely related to baseline cardiac output. Glomerular filtration rate and volume excretion did not change significantly. Pulmonary capillary wedge pressure fell from 23±3 to 18±3 mm Hg (p < 0.05) and remained below baseline throughout the 24 hours. Arterial pressure, heart rate, and total peripheral resistance did not change significantly during the 24-hour period. Urinary cGMP excretion increased fivefold (p < 0.05), whereas urinary ANF immunoreactivity and plasma cGMP levels remained unchanged. Excretion of prostacyclin metabolite 6-keto-PGF-1α increased 3.3-fold (p < 0.05). Plasma norepinephrine and epinephrine levels decreased significantly after candoxatrilat and remained suppressed over the 24-hour period. There was also a transient reduction in plasma vasopressin, aldosterone levels, and plasma renin activity. Hematocrit, total protein content, and plasma albumin concentrations did not change, indicating that no fluid shift into the extravascular space had occurred. Conclusions1) The inhibition of ANF degradation causes sustained drop in left and right atrial pressures that appears to be mediated by an inhibition of neurohumoral activity; 2) concomitant inhibition of bradykinin breakdown (which in turn stimulates renal prostacyclin synthesis) contributes to natriuresis; 3) the close correlation between renal response and baseline cardiac index indicates that an inadequate renal perfusion secondary to low cardiac output diminishes the efficacy of this treatment modality. This spectrum of action would be advantagous for a first-line diuretic agent early in the course of disease rather than in patients with advanced chronic heart failure.