Vascular actions of brain natriuretic peptide: modulation by atherosclerosis and neutral endopeptidase inhibition

OBJECTIVES: We sought to define the vascular actions of the cardiac hormone brain natriuretic peptide (BNP) on cellular proliferation and cyclic guanosine monophosphate (cGMP) in human aortic vascular smooth muscle cells (HAVSMCs). Secondly, we investigated BNP and acetylcholine (ACh) vasorelaxations in aortic rings from normal and atherosclerotic rabbits in the presence and absence of long-term oral inhibition of neutral endopeptidase (NEP). BACKGROUND: The vascular actions of BNP are not well defined, despite the presence of its receptor in vascular smooth muscle and the upregulation of NEP, the ectoenzyme that degrades BNP, in the vascular wall in atherosclerosis. METHODS: HAVSMCs stimulated with fetal calf serum (FCS) were pulsed with bromodeoxyuridine (BrdU) with and without BNP. The HAVSMCs were incubated in the presence and absence of BNP to assess cGMP. Vasorelaxations to BNP and ACh were assessed in rings in normal and atherosclerotic rabbits in the presence and absence of long-term oral inhibition of NEP, together with assessment of atheroma formation. RESULTS: FCS-stimulated BrdU uptake in HAVSMCs was suppressed with BNP. BNP potentiated cGMP in HAVSMCs. BNP resulted in potent vasorelaxation in normal isolated aortic rings, which were impaired in atherosclerotic versus normal rabbits and preserved with NEP inhibition, which also decreased atheroma formation. Relaxations to ACh, which were also impaired in atherosclerosis, were preserved with inhibition of NEP. CONCLUSIONS: We conclude that BNP potently inhibits vascular smooth muscle cell proliferation and potentiates the generation of cGMP. BNP potently relaxes the normal rabbit aorta, and this response is impaired in atherosclerosis but preserved with inhibition of NEP, together with a reduction in atheroma formation and preservation of relaxations to ACh.     

Brain natriuretic peptide and neutral endopeptidase inhibition in left ventricular impairment

Brain natriuretic peptide (BNP) is increased in left ventricular impairment and neutral endopeptidase (NEP) is involved in its metabolism. In random order, eight patients with left ventricular impairment received placebo, a 4-h infusion of human BNP (3.0 pmol/kg min), a single oral dose of NEP inhibitor (SCH 42495, 300 mg), and combined BNP and SCH 42495. Plasma BNP, cGMP, and cortisol were significantly increased by all three treatments (P < 0.05-P < 0.001). Combined treatment had a synergistic effect on plasma cGMP. The metabolic clearance rate of exogenous BNP was reduced (25%) by NEP inhibition. Endogenous plasma ANP was augmented more than BNP by NEP inhibition. Plasma aldosterone, unchanged during infusions, rose markedly after BNP and after the combined treatment (P < 0.05 for both). Urine sodium excretion, increased by NEP inhibition (P < 0.05) and by BNP (P = 0.05), was unchanged during combined treatment. Urine cGMP excretion was increased, whereas blood pressure was reduced by all active treatments (P < 0.05-0.01 for all). Heart rate increased only with combined treatment (P = 0.007). Plasma renin activity, norepinephrine, and cardiac output were unaffected. BNP infusion and NEP inhibition both induced significant hemodynamic and renal responses. The augmented hypotensive effect of combined treatments, and consequent fall in renal perfusion pressure, may underly the observed blunting of the natriuretic response that occurred despite greater than additive increments in plasma BNP, ANP, and cGMP.     

Natriuretic peptide receptors and neutral endopeptidase in mediating the renal actions of a new therapeutic synthetic natriuretic peptide dendroaspis natriuretic peptide

OBJECTIVES: The objectives of the current study were to define for the first time the roles of the natriuretic peptide (NP) receptors and neutral endopeptidase (NEP) in mediating and modulating the renal actions of Dendroaspis natriuretic peptide (DNP), a new therapeutic synthetic NP. BACKGROUND: Recent reports have advanced the therapeutic potential of a newly described synthetic NP called DNP. Dendroaspis natriuretic peptide is a 38-amino acid peptide recently isolated from the venom of Dendroaspis augusticeps (the green mamba snake). METHODS: Synthetic DNP was administered intra-renally at 5 ng/kg/min to 11 normal anesthetized dogs, 5 of which received the NP receptor antagonist HS-142-1 (3 mg/kg intravenous bolus) while the remaining 6 dogs received an infusion of the NEP inhibitor, candoxatrilat (8 and 80 microg/kg/min) (Pfizer, Sandwich United Kingdom). RESULTS: Intra-renal DNP resulted in marked natriuresis associated with increased urinary cyclic guanosine monophosphate excretion (UcGMPV), glomerular filtration rate (GFR), and renal blood flow (RBF) and decreased distal fractional sodium reabsorption (FNaR) compared with baseline. HS-142-1 attenuated the natriuretic response to DNP, resulting in decreased UcGMPV, GFR, and RBF and increased distal FNaR. In contrast, low and high doses of NEP inhibitor did not potentiate the renal actions of DNP. CONCLUSIONS: We report that the NP receptor blockade attenuated the renal actions of synthetic DNP and that the NEP inhibitor did not alter the renal response to DNP. This latter finding is a unique property of synthetic DNP, as distinguished from other known NPs, supporting its potential as a therapeutic agent.     

Enhanced natriuretic response to neutral endopeptidase inhibition in heart-transplant recipients

Heart-transplant recipients (Htx) generally present with body fluid and sodium handling abnormalities and hypertension. To investigate whether neutral endopeptidase inhibition (NEP-I) increases endogenous atrial natriuretic peptide (ANP) and enhances natriuresis and diuresis after heart transplantation, ecadotril was given orally to 8 control subjects and 8 matched Htx, and levels of volume-regulating hormones and renal water, electrolyte, and cyclic guanosine monophosphate (cGMP) excretions were monitored for 210 minutes. Baseline plasma ANP, brain natriuretic peptide (BNP), and cGMP were elevated in Htx, but renin and aldosterone, like urinary parameters, did not differ between groups. NEP-I increased plasma ANP (Htx, 20.6+/-2.3 to 33.2+/-5.9 pmol/L, P<0.01; controls, 7.7+/-1. 2 to 10.6+/-2.6 pmol/L) and cGMP, but not BNP. Renin decreased similarly in both groups, whereas aldosterone decreased significantly only in Htx. Enhanced urinary sodium (1650+/-370% versus 450+/-150%, P=0.01), cGMP, and water excretions were observed in Htx and urinary cGMP positively correlated with natriuresis in 6 of the Htx subjects. Consistent with a normal circadian rhythm of blood pressure, without excluding a possible effect of NEP-I, mean systemic blood pressure increased similarly in both groups at the end of the study (6.9+/-2.0% versus 7.4+/-2.8% in controls and Htx). Thus, systemic hypertension, mild renal impairment, and raised plasma ANP levels are possible contributory factors in the enhanced natriuresis and diuresis with NEP-I in Htx. These results support a physiological role for the cardiac hormone after heart transplantation and suggest that long-term studies may be useful to determine the potential of NEP-I in the treatment of sodium retention and water retention after heart transplantation.     

脑利钠肽与糖脂代谢的关系

脑利钠肽作为内分泌激素主要通过调节水盐平衡维持机体内环境稳态,现已被广泛用于心血管疾病的临床诊断及判断预后,而近年来的研究表明其对代谢系统也有一定影响.脑利钠肽能通过加强脂质分解与脂肪动员作用改善脂代谢,而与糖代谢的关系尚存争议.多数研究显示其与血糖水平呈负相关,这主要与增加葡萄糖利用及扩血管作用有关.故脑利钠肽在减重、预防糖尿病及代谢综合征的发展中均有一定临床应用前景.     

Inhibition of neutral endopeptidase amplifies the effects of endogenous atrial natriuretic peptide on blood pressure and fluid partition.

Neutral endopeptidase (EC 3.4.24.11) is a wide-spread enzyme that degrades atrial natriuretic peptide (ANP). We studied the effects of a potent neutral endopeptidase inhibitor, SQ 28,603, given intravenously (30 mg/kg over 45 min) to anesthetized, bilaterally nephrectomized Sprague-Dawley rats. Infusion of vehicle alone was accompanied by a modest increase, 3.2 +/- 2.2% (mean +/- SE), in mean arterial blood pressure (MAP) and a slight rise in hematocrit (Hct) of 0.9 +/- 0.7%. After administration of SQ 28,603, MAP fell 3.2 +/- 0.5%, and Hct rose 4.9 +/- 0.5%, both significantly different from the changes with vehicle alone; the lesser increase in plasma protein concentration (2.5 +/- 0.4%) suggested an increase in vascular permeability to both plasma protein and fluid similar to that caused by ANP. When SQ 28,603 was given to rats pretreated with rabbit antirat ANP antiserum, blood pressure rose by 3.8 +/- 0.5%, and Hct increased by 1.0 +/- 0.4%, values very similar to those observed with vehicle alone. Inhibition of neutral endopeptidase therefore amplifies the actions of endogenous ANP on blood pressure and fluid partition.     

Early brain natriuretic peptide increase reflects acute myocardial ischemia in patients with ongoing chest pain

BACKGROUND: Plasma brain natriuretic peptide levels increase during acute ischemic events. In this study we tested the diagnostic performance of brain natriuretic peptide measurements in the detection of acute myocardial ischemia. METHODS: Blood brain natriuretic peptide was measured in 101 patients with ongoing chest pain but no heart failure or an ST-segment elevation myocardial infarction on arrival at the emergency department (baseline) and at 2 and 6 h later. After diagnostic testing and 1-month follow-up for ischemia, patients were classified as either ischemic or non-ischemic. RESULTS: In the ischemic group median (25th, 75th percentiles) brain natriuretic peptide values (pg/ml) were 122 (20, 349) at baseline, 116 (36, 347) at 2 h, increasing to 148 (52, 428) at 6 h (p<0.001 vs. baseline). Non-ischemic patients had 12 (5, 32) at baseline, 9 (6, 30) at 2 h, and 13 (5, 29) at 6 h (p<0.001 vs. corresponding values of the ischemic group). Receiver operator characteristic curves were constructed for brain natriuretic peptide values at baseline 2 and 6 h and for the increase of peptide levels from baseline to 6 h. All areas under curve indicated a significant diagnostic ability for the detection of ischemia. The 6-h measurement had better diagnostic performance than baseline and 2-h measurements. The subgroup of ischemic patients without myocardial necrosis also had higher brain natriuretic peptide values and could thus be discriminated from non-ischemic subjects. CONCLUSIONS: Brain natriuretic peptide values may detect acute myocardial ischemia in patients with ongoing chest pain but without ST-segment elevation, and distinguish ischemic patients from those with pain of non-ischemic origin.     

Restorative effect of atrial natriuretic peptide or chronic neutral endopeptidase inhibition on blunted cardiopulmonary vagal reflexes in aged rats

Arterial baroreflex function diminishes with age, but whether cardiopulmonary vagal reflexes are similarly altered with physiological aging has not been fully elucidated. In this study, predominantly cardiac high pressure mechanoreceptor-activated (ramp baroreflex) and cardiopulmonary chemoreceptor-activated (von Bezold-Jarisch reflex) vagal reflexes in conscious, instrumented rats were impaired by 30% to 40% (P<0.05) in 24-month-old (n=12) compared with 6-month-old rats (n=12). To determine whether this is a restorable deficit, the influence of atrial natriuretic peptide (ANP), either by infusion or blockade of its breakdown, was studied. ANP infusion was previously shown to enhance Bezold-Jarisch reflex and ramp baroreflex bradycardia in young adult rats. The present study confirmed that vagal reflex augmentation by ANP (50 pmol/kg per minute) also occurs in old rats (increased by 60+/-18% (Bezold-Jarisch reflex) and 91+/-15% (ramp baroreflex; P<0.05). Direct vagal stimulation in anesthetized animals showed that the target for ANP was not the cardiac vagus itself in old rats (n=7), although in young rats only, we confirmed the published finding that ANP enhances vagal bradycardia (by 58+/-14%, n=7). Neutral endopeptidase 24.11 degrades ANP and several other peptides. The neutral endopeptidase inhibitor candoxatrilat (5 mg/kg per day IV for 7 to 9 days) restored vagal reflex bradycardia in old rats (n=6) to levels similar to those in young neutral endopeptidase inhibitor-treated rats (n=6). Impaired cardiopulmonary vagal reflex control of heart rate is thus a feature of normal aging, and this deficit may be ameliorated by either ANP infusion or chronic neutral endopeptidase inhibition.     

Receptor selectivity of natriuretic peptide family, atrial natriuretic peptide, brain natriuretic peptide, and C-type natriuretic peptide.

To elucidate the ligand-receptor relationship of the natriuretic peptide system, which comprises at least three endogenous ligands, atrial natriuretic peptide (ANP), brain natriuretic peptide (BNP), and C-type natriuretic peptide (CNP), and three receptors, the ANP-A receptor or guanylate cyclase-A (GC-A), the ANP-B receptor or guanylate cyclase-B (GC-B), and the clearance receptor (C-receptor), we characterized the receptor preparations from human, bovine, and rat tissues and cultured cells with the aid of the binding assay, Northern blot technique, and the cGMP production method. Using these receptor preparations, we examined the binding affinities of ANP, BNP, and CNP for the C-receptor and their potencies for cGMP production via the ANP-A receptor (GC-A) and the ANP-B receptor (GC-B). These analyses revealed the presence of a marked species difference in the receptor selectivity of the natriuretic peptide family, especially among BNPs. Therefore, we investigated the receptor selectivity of the natriuretic peptide family using the homologous assay system with endogenous ligands and receptors of the same species. The rank order of binding affinity for the C-receptor was ANP greater than CNP greater than BNP in both humans and rats. The rank order of potency for cGMP production via the ANP-A receptor (GC-A) was ANP greater than or equal to BNP much greater than CNP, but that via the ANP-B receptor (GC-B) was CNP greater than ANP greater than or equal to BNP. These findings on the receptor selectivity of the natriuretic peptide family provide a new insight into the understanding of the physiological and clinical implications of the natriuretic peptide system.     

Atrial natriuretic peptide and brain natriuretic peptide coexist in the secretory granules of human cardiac myocytes.

To elucidate the intracellular localization of atrial natriuretic peptide (ANP) and brain natriuretic peptide (BNP) in human cardiac myocytes, an immunocytochemical study was carried out by a double immunogold technique using antisera highly specific for ANP and BNP. Surgical and autoptic tissue specimens of human heart were studied. In the atrial myocytes, ANP was localized in almost all of the secretory granules, whereas BNP was colocalized with ANP in some of the granules. Although very few secretory granules were observed in ventricular myocytes, colocalization of ANP and BNP was basically the same as in atrial myocytes. No immunoreactive products were found in the control studies. These results suggest that secretion of BNP is under a regulatory mechanism similar to that of ANP.     

Role of neutral endopeptidase in the metabolism of endothelin.

Endothelin is a potent vasoconstrictor produced by endothelial cells. Although endothelin has been studied extensively, little is known about its metabolism in vivo. Neutral endopeptidase EC.3.4.24.11 is reported to degrade endothelin in vitro. Therefore, we studied the effect of neutral endopeptidase inhibition by SQ29,072 on plasma levels and urinary excretion of endogenous and exogenous endothelin. Injection of 30 or 60 mg/kg SQ29,072 into anesthetized rats increased the urinary excretion of endothelin nearly 14-fold. The response was maximal during the first 30 minutes of collection and lasted for 90 minutes. The larger dose of inhibitor caused a 37-43% increase (p less than or equal to 0.05) in the plasma concentration of endothelin. Only 0.20 +/- 0.04% of the total radioactivity injected as 125I-endothelin (1 microCi; 1,308 pg) into normal rats was recovered in the urine within 30 minutes. Urinary radioactivity increased to 0.54-0.63% (p less than or equal to 0.05) of the total infused in rats pretreated with SQ29,072. Chromatographic analysis of radioactivity in the urine revealed that intact endothelin accounted for only 6-9% of the total counts in control rats but 50-56% in rats pretreated with the inhibitor. We also studied the effects of another inhibitor of neutral endopeptidase, SQ28,063, on the distribution of radioactivity in the urine, kidney, and lung of rats injected with 125I-endothelin. SQ28,063 increased urinary excretion of labeled endothelin and increased total radioactivity accumulated in the lung and kidney from 157 and 105 pg to 234 and 157 pg, respectively. Intact endothelin accounted for 90% or more of the accumulated counts in both tissues. These results indicate that 1) little circulating endothelin is cleared into the urine, 2) endothelin in the urine is likely of renal origin, and 3) neutral endopeptidase EC.3.4.24.11 plays a major role in the inactivation of endothelin.     

Localization of the enzyme neutral endopeptidase to the human synovium.

Neuropeptides, contained within sensory nerve fibers in the synovium, are present in inflammatory joint fluids. The potency of these peptides in vitro has led to the hypothesis that enzyme degradation systems are operative in vivo. To address this question we localized neutral endopeptidase (NEP; EC 3.4.24.11) in human synovium. The normal human synovium failed to show any immunoreactivity for NEP. In the disease groups there was intense staining of cells surrounding blood vessels. Our data are consistent with the hypothesis that a proportion of synovial fibroblasts are the major source of this enzyme in the arthritic joint.     

The association of brain natriuretic peptide and insulin resistance in obesity-related hypertension

Hypertension is frequently associated with obesity and natriuretic peptide levels are reported to decrease in obese subjects. Both the lower brain natriuretic peptide (BNP) concentration and insulin resistance are suggested to be associated with hypertension. However, their involvement in obesity-related hypertension has not been clearly defined. Forty-four obese women (21 normotensive and 23 hypertensive) and 25 healthy women matched for age were included in the study. Anthropometrical parameters were determined. Serum BNP, fasting insulin and glucose concentrations, and lipid parameters were evaluated. Insulin resistance was calculated using Homeostasis Model Assessment (HOMA) and Quantative Insulin Sensitivity Check Index (QUICKI) formulations. Within the obese groups, HOMA and QUICKI reflected the increased insulin resistance in hypertensive obese subjects with a significant correlation to blood pressure. The decrease in BNP in the obese groups was in favour of the hypertensive obese subjects (31.43+/-6.43; 26.36+/-4.29; and 17.51+/-3.08 pg/ml, respectively) with a fractional statistical significance between the hypertensive obese group and the controls (P=0.047). Only for the obese hypertensive group, fasting glucose, HOMA and QUICKI were significantly correlated with BNP. Moreover, fasting plasma glucose (R(2)=0.22, P=0.007) and fasting plasma insulin (R(2)=0.39, P=0.03) were independently correlated with BNP only for the obese hypertensive group. It can be concluded that the decrease in BNP concentrations in the obese hypertensive subjects seem to be well correlated with the insulin resistance.     

Relaxant effect of human brain natriuretic peptide on human artery and vein tissue

Brain natriuretic peptide (BNP) is a cardiac-derived peptide hormone with cardiovascular and renal actions that is structurally and functionally related to atrial natriuretic peptide (ANP). Previous studies using rat vascular tissue have demonstrated a direct vasorelaxant effect of BNP. However, species-specific potency issues have precluded an accurate measurement of the effect of human BNP. This report demonstrates the vasorelaxant effects of human BNP on human vascular tissue prepared from internal mammary artery and saphenous vein samples. The vasorelaxant effect of human BNP is compared to the other members of the natriuretic peptide family, human ANP and C-type natriuretic peptide (CNP). With regard to potency and magnitude of effect, human BNP and human ANP were similar in relaxing arterial tissue preconstricted with endothelin-1 (BNP ED₅₀ = 1.9 nmol/L and ANP ED₅₀ = 1.8 nmol/L) or phenylephrine (BNP ED₅₀ = 10 nmol/L and ANP ED₅₀ = 19 nmol/L), while CNP was significantly less effective. All three natriuretic peptides exhibited weak venodilating action. These data demonstrate that human BNP is a potent inhibitor of the vasoconstrictive actions of endothelin-1 and the α-adrenergic agonist phenylephrine on isolated human artery tissue preparations.     

Ultra-rapid measurement of brain natriuretic peptide

B-type natriuretic peptide (BNP) is secreted by overloaded ventricles. Emerging of bedside dosages cause an increasing interest for this peptide as marker in various clinical situations with heart failure. At first, BNP dosage is a potential tool for detecting heart failure and left ventricular dysfunction. BNP has also a powerful and well-established prognosis value in chronic heart failure. In the emergency setting, and mainly about acute dyspnea, low blood BNP level could eliminate diagnosis of congestive heart failure. Moreover, serial measurement of BNP could allow non-invasive hemodynamic monitoring during decompensated heart failure and could also lead cares as need for intensifying treatment. Nevertheless, its daily use in various clinical situations require that cut-off values are refined.     

重组人脑利钠肽治疗心力衰竭

大量对照临床试验表明,对急性失代偿性心力衰竭患者,外源性给予一种基因重组人脑利钠肽(nesiritide)可以改善临床症状和血流动力学状况,还能够有效抑制神经内分泌的激活。     

重组人脑利钠肽治疗心肾综合征疗效研究

目的：观察重组人脑利钠肽（rhBNP）治疗心肾综合征患者的疗效。方法：回顾性分析在我院住院诊断为心肾综合征的患者75例的资料,按数字表法被随机分为：常规治疗组（40例,给予常规治疗）,rhBNP组（35例,在常规治疗的基础上加用 rhBNP）,rhBNP按0.0075μg·kg^-1·min^-1以微量泵静脉泵入,每天1次,每次持续约10 h,7d为1疗程,分别记录治疗前和7d后患者的24 h尿量、N末端脑利钠肽前体（NT-proBNP）、肾小球滤过率及心脏彩超的变化。结果：治疗后与常规治疗组比较, rhBNP 组总有效率（62.5％比94.3％）,24 h 尿量[（785.2±143.4）ml比（965.34±171.8）ml]、肾小球滤过率[（34.1±2.6）ml/min比（45.2±5.6）ml/min]、左室射血分数[（35.6±5.5）％比（45.9±6.8）％]显著升高,NT-proBNP [（3451.1±1314.2）pg/ml 比（1516.43±431.52）pg/ml]水平显著降低,差异有统计学意义（P均＜0.01）。结论：重组人脑利钠肽在心肾综合征患者治疗中安全有效,并能改善肾功能。     

Expression and distribution of brain natriuretic peptide in human right atria

Objectives. We investigated expression of brain natriuretic peptide (BNP) as well as atrial natriuretic peptide (ANP) and their genes in human right atria. Their relations with atrial pressure were also examined.

Background. The BNP plays a roll in electrolyte-fluid homeostasis such as ANP. The tissue level is reported to be elevated in the failing ventricles. However, expression and transmural distribution of BNP in the atria remain unclear.

Methods. Expression of ANP and BNP was immunohistochemically investigated in the right atrial (RA) specimens from 21 patients who had undergone cardiac surgery. The mRNA of specimens were quantitatively measured by Northern blot analysis and also evaluated by in situ hybridization. In addition, plasma levels of ANP and BNP were measured in the patients.

Results. The BNP immunoreactivity was diffusely seen in RA tissue of patients with mean RA pressure (mRAP) of 5 mm Hg or more, but it was noted only in the subendocardial half of the atria of those with mRAP less than 5 mm Hg. There was a significant correlation between the incidence of BNP-positive myocytes and mRAP (r = 0.850, p < 0.0001). Conversely, ANP-positive myocytes were found diffusely in all cases. In Northern blot analysis, the mRNAs levels of ANP and BNP in the atrial tissue were positively correlated with the mRAP (ANP, p = 0.775, p < 0.005 and BNP, p = 0.771, p < 0.005). In situ hybridization confirmed these findings. The mRNA levels were significantly correlated to each other (r = 0.845, p < 0.0002). Plasma ANP and BNP levels were elevated in the patients compared with that in controls; however, none were significantly correlated with the mRAP.

Conclusions. Expression of BNP and BNP mRNA is augmented in the atria with increased pressure, and distributed predominantly in the subendocardial side. The level of BNP mRNA was well correlated with that of ANP mRNA. Thus, these two genes might be commonly regulated in response to atrial pressure.