Pathophysiology of congestive heart failure: role of atrial natriuretic factor and therapeutic implications.

Endogenous atrial natriuretic factor (ANF) serves a functional role to maintain sodium homeostasis and inhibit activation of the renin-angiotensin-aldosterone system in acute congestive heart failure despite arterial hypotension. However, as heart failure progresses, maximal synthesis and release of ANF from both the atrial and ventricular myocardium may occur resulting in relative ANF deficiency. This relative deficiency of ANF results in a progressive inability to excrete sodium and antagonize the renin-angiotensin-aldosterone system. Consequently, agents that increase circulating ANF and (or) enhance its local action have potential therapeutic efficacy. Recent studies suggest that inhibitors of neutral endopeptidase 24.11, which block ANF degradation, potentiate the natriuretic action of endogenous ANF independent of systemic or renal hemodynamics. This action does not parallel increases in plasma ANF and is associated with marked increases in urinary ANF and cyclic guanosine monophosphate consistent with enhanced local action of the peptide. In addition, agents that selectively bind to biologically inactive ANF clearance receptors increase endogenous plasma ANF and promote increases in renal sodium excretion. These studies suggest a therapeutic role for neutral endopeptidase inhibition and clearance receptor blockade, while advancing our understanding of the pathophysiology of ANF in congestive heart failure.     

Cloning and expression of the atrial natriuretic factor gene

Atrial natriuretic factor (ANF) is a 28-amino acid peptide hormone with potent natriuretic, diuretic and vasodilator properties. Isolation and DNA sequence analysis of rat and human cDNA clones revealed that ANF is synthesized from a 126-amino acid precursor which is highly conserved in both species. Southern blot analysis indicated that the ANF gene is present in a single copy per haploid genome. Both human and rat ANF genes were isolated and showed a similar structural organization which consisted of three exons and two introns. The ANF gene was localized to the short arm of human chromosome 1 and mouse chromosome 4. While atria are the major site of expression of the ANF gene in adult heart, other tissues like ventricles, lung, anterior pituitary, hypothalamus and adrenal synthesize ANF albeit to a much lower extent. In ventricles, ANF mRNA levels are 150 times lower than in atria. However, in cardiac hypertrophy or in congestive heart failure, ventricular ANF mRNA and peptide levels are dramatically (100-fold) increased both in animal models and in humans. This suggests that ventricles are a major site of ANF gene expression in certain pathophysiological conditions and that ANF is not an exclusively atrial peptide as was originally thought.     

Enkephalinase (EC 3.4.24.11) inhibitors: protection of endogenous ANF against inactivation and potential therapeutic applications

Atrial natriuretic factor (ANF) is a cardiac hormone exerting potent cardiovascular and renal effects but its poor intestinal absorption and rapid inactivation have prevented so far its therapeutic utilisation. However inhibition of endogenous ANF metabolism progressively emerges as a novel therapeutic approach in cardiovascular and renal disorders. The critical role played by enkephalinase (membrane metalloendopeptidase, EC 3.4.24.11) in ANF inactivation was deduced from the effects of inhibitors. These compounds not only protect partially exogenous ANF from hydrolysis by some tissue preparations in vitro but also, in vivo, they increase the half-life of the exogenous hormone in plasma and, even more markedly, its recovery in intact form in kidney, a major target organ. In addition, enkephalinase inhibitors increase by two- to three-fold the circulating level of endogenous ANF, even when the latter is already markedly elevated, such as in patients with chronic heart failure. Finally, enkephalinase inhibitors induce a series of ANF-like responses such as natriuresis, diuresis or increase in cGMP excretion which are attributable to the hormone. These pharmacological observations, as well as preliminary clinical trials, suggest that enkephalinase inhibitors may represent a novel class of therapeutic agents with potential applications in congestive heart failure, essential hypertension and various sodium-retaining states.     

The atrial natriuretic factor: Its physiology and biochemistry

In the history of medical research, few advances have been more rapid — in all aspects — than those in the research on the atrial natriuretic factor since the original observation by de Bold et al. in 1981 of the marked natriuresis, diuresis, and vasorelaxation following the i. v. administration of crude atrial extracts. The atrial factor responsible for these findings has been isolated and sequenced, the cDNA coding for ANF has been cloned, and the gene has been localized on the chromosomal map. Most of its biological activities have been determined, and these clearly provide a balance to the activities of the reninangiotensin system. Many points remain to be elucidated, such as the role of ANF in patients with essential hypertension with congestive heart failure; the participation of ventricular ANF in pathological states such as hypertension and congestive heart failure; the interplay of ANF and angiotensin II in brain regions involved in the regulation of sodium, water, and blood pressure such as the AV3V region and the subfornical organ; the role of ANF in the ciliary bodies of the eyes; the relationship of particulate guanylate cyclase stimulation and adenylate cyclase inhibition with vasorelaxation; the neuromodulatory role of ANF in neural transmission; and many others. Fundamental questions remain to be answered and offer a field for innovative researches.From the Clinical Research Institute of Montreal and the Université de Montréal. Clinical Research Institute of Montréal, 110 Pine Avenue West, Montréal, Québec, Canada H2W 1R7     

Cardiac secretion of atrial natriuretic factor with exercise in chronic congestive heart failure patients.

We have previously reported a fivefold increase of plasma atrial natriuretic factor (ANF) in patients with congestive heart failure (CHF) compared with normal subjects. However, given the marked increase of ANF under basal conditions, the extent to which ANF secretion can further increase under physiological stress is not been clarified in CHF. We therefore evaluated ANF secretion during ergometric exercise in 11 patients with CHF, with peripheral venous ANF samples obtained at rest and peak exercise. In seven patients, simultaneous peripheral venous and right ventricular ANF samples were obtained to estimate myocardial ANF secretion. Hemodynamic characteristics of exercise included a significant increase of heart rate, mean arterial pressure, and cardiac output (all P < 0.01); reduction of systemic vascular resistance (P < 0.001); and increase of right atrial and pulmonary wedge pressures (P < 0.001). ANF was abnormally elevated at baseline (108 +/- 58 fmol/ml) yet increased further to 183 +/- 86 fmol/ml with exercise (P < 0.003). A step-up of right ventricular ANF, particularly during exercise, was consistent with active myocardial secretion, despite elevated baseline ANF levels.     

Characterization of a long-acting recombinant human serum albumin-atrial natriuretic factor (ANF) expressed in Pichia pastoris

The cardiac hormone atrial natriuretic factor (ANF) combines pharmacological properties of drugs used to treat essential hypertension (EH), congestive heart failure (CHF) and acute myocardial infarction (AMI). Treatment of CHF or AMI patients with an intravenous (iv) infusion of the circulating form of ANF (ANF(99-126)) produces significant clinical improvement. The short half-life (5 min) and peptide nature of ANF impose logistic restrictions for chronic administration. To increase its half-life, we fused ANF and human serum albumin (HSA) mini-genes by recombination in Pichia pastoris. The activity of three configurations of the fusion protein was tested in vitro and in vivo. The fusion protein that comprised of C-terminus HSA connected to N-terminus ANF via a hexaglycine linker showed the best outcome; it increased cGMP production in vitro. In vivo an iv bolus of HSA-ANF into mice increased significantly plasma cGMP levels and lowered blood pressure (BP) for up to 6 h hence successfully extended ANF half-life in plasma while retaining its biological activity. HSA-ANF represents the basis for development in the chronic therapeutic use of ANF.     

Plasma and atrial content of atrial natriuretic factor in cardiomyopathic hamsters

Immunoreactive atrial natriuretic factor (IR-ANF) was measured in plasma and atrial extracts from normal and cardiomyopathic Syrian golden hamsters. Plasma IR-ANF was increased from 84.8 ± 9.8 pg/ml(n = 17) to 234 ± 23 (n = 25; P<.0001) in hamsters with moderate failure, and to 1085 ± 321 pg/ml (n = 10; P<.02) in animals with severe failure. Plasma IR-ANF increased with increased atrial hypertrophy. Atrial IR-ANF content was essentially the same in normal animals and in those with moderate heart failure (3.06 ± 0.28 vs 3.17 ± 0.19 μg/100 g body wt., P<.001) and lower in the majority of those with severe failure (1.82 μg/100 g body wt., P<.001). The elevations of IR-ANF in plasma are similar to those seen in patients with congestive heart failure. Our studies do not support bioassay results showing a deficiency of atrial ANF content as being important in the congestive heart failure associated with cardiomyopathy in the hamster.     

Regulation of expression of atrial and brain natriuretic peptide,biomarkers for heart development and disease

The mammalian heart expresses two closely related natriuretic peptide (NP) hormones, atrial natriuretic factor (ANF) and brain natriuretic peptide (BNP). The excretion of the NPs and the expression of their genes strongly respond to a variety of cardiovascular disorders. NPs act to increase natriuresis and decrease vascular resistance, thereby decreasing blood volume, systemic blood pressure and afterload. Plasma levels of BNP are used as diagnostic and prognostic markers for hypertrophy and heart failure (HF), and both ANF and BNP are widely used in biomedical research to assess the hypertrophic response in cell culture or the development of HF related diseases in animal models. Moreover, ANF and BNP are used as specific markers for the differentiating working myocardium in the developing heart, and the ANF promoter serves as platform to investigate gene regulatory networks during heart development and disease. However, despite decades of research, the mechanisms regulating the NP genes during development and disease are not well understood. Here we review current knowledge on the regulation of expression of the genes for ANF and BNP and their role as biomarkers, and give future directions to identify the in vivo regulatory mechanisms. This article is part of a Special Issue entitled: Heart failure pathogenesis and emerging diagnostic and therapeutic interventions.     

Decreased atrial natriuretic factor receptors and impaired cGMP generation in glomeruli from the cardiomyopathic hamster

To determine a possible basis for the decreased action of atrial natriuretic factors (ANF) in congestive heart failure, we compared the cardiomyopathic hamster (CMH) in frank congestive failure, and the age-matched, normal, F1B strain of Golden Syrian Hamsters. Scatchard analysis of competitive binding studies revealed two classes of glomerular receptors. The CMH exhibited decreased binding overall and a markedly decreased number of high affinity receptors but comparable receptor affinity compared to the F1B. In contrast, the low affinity receptor population in the CMH had a much greater affinity compared to the F1B while receptor number was similar. Plasma ANF levels were substantially elevated in the CMH compared to the F1B and in-vitro generation of cGMP was significantly lower in the CMH. Such abnormalities could contribute to the resistance to ANF in this disease.     

Natriuretic peptides as prognostic and diagnostic markers in Chagas' disease

Atrial natriuretic factor (ANF) is a hormone secreted predominantly from atrial myocardium in response to changes in wall tension. Chagas' disease is caused by the parasite Trypanosom cruzi (T. cruzi), the heart being one of the most affected organs, resulting in myocarditis and chronic cardiomyopathy. The inflammatory response of the myocardium may be the result of factors such as ischemia, direct parasite invasion, and autoimmune mechanisms. In this review, we discuss the current knowledge about ANF in Chagas' disease and describe our findings in studying: (1) the development of chagasic cardiomyophathy in T. cruzi-infected rats and its relationship with plasma ANF levels; (2) the evolution of plasma ANF in chagasic patients in different stages (asymptomatic, with conduction defects and with chronic heart failure [CHF]); and (3) the possible usefulness of plasma ANF as a prognostic factor of development of myocardial compromise and survival. In rats, the elevated ANF levels found could mirror the inflammatory response of myocardial cells to acute T. cruzi infection and of progressive failure of cardiac function in the chronic infection. In patients, plasma ANF could be a sensitive marker capable of detecting gradual impairments in cardiac function and poor survival in CHF patients and of myocardiopathy development in the asymptomatic state.     

Determinants of natriuretic peptide gene expression

The cardiac natriuretic peptides (NP) atrial natriuretic factor or peptide (ANF or ANP) and brain natriuretic peptide (BNP) are polypeptide hormones synthesized, stored and secreted mainly by cardiac muscle cells (cardiocytes) of the atria of the heart. Both ANF and BNP are co-stored in storage granules referred to as specific atrial granules. The biological properties of NP include modulation of intrinsic renal mechanisms, the sympathetic nervous system, the rennin-angiotensin-aldosterone system (RAAS) and other determinants, of fluid volume, vascular tone and renal function. Studies on the control of baseline and stimulated ANF synthesis and secretion indicate at least two types of regulated secretory processes in atrial cardiocytes: one is stretch-stimulated and pertussis toxin (PTX) sensitive and the other is Gq-mediated and is PTX insensitive. Baseline ANF secretion is also PTX insensitive. In vivo, it is conceivable that the first process mediates stimulated ANF secretion brought about by changes in central venous return and subsequent atrial muscle stretch as observed in acute extracellular fluid volume expansion. The second type of stimulation is brought about by sustained hemodynamic and neuroendocrine stimuli such as those observed in congestive heart failure.     

Haemodynamic Studies with Peruvoside in Human Congestive Heart Failure

The immediate haemodynamic effects of peruvoside, a cardiac glycoside obtained from the Indian plant Thevetia neriifolia Juss, were studied in six patients with congestive heart failure. The drug was found to have an immediate and powerful positive inotropic and negative chronotropic effect, like ouabain, on the failing human heart. Oral peruvoside was also effective in the treatment of congestive heart failure when used on a short-term as well as a long-term basis. It therefore seems that peruvoside is a useful cardiac glycoside in the management of congestive heart failure in man as a quick-acting intravenous preparation. It is equally effective when used orally.     

Overexpression of calmodulin induces cardiac hypertrophy by a calcineurin-dependent pathway

The possible role of calcineurin in cardiac hypertrophy induced by calmodulin (CaM) overexpression in the heart was investigated. CaM transgenic (CaM-TG) mice developed marked cardiac hypertrophy and exhibited up-regulation of atrial natriuretic factor (ANF) and beta-myosin heavy chain gene expression in the heart during the first 2 weeks after birth. The activity of calcineurin in the heart was also significantly increased in CaM-TG mice compared with wild-type littermates. Treatment of CaM-TG mice with the calcineurin inhibitor FK506 (1mg/kg per day) prevented the increase in the heart-to-body weight ratio as well as that in cardiomyocyte width. FK506 also inhibited the induction of fetal-type cardiac gene expression in CaM-TG mice. Overexpression of CaM in cultured rat cardiomyocytes activated the ANF gene promoter in a manner sensitive to FK506. Activation of a calcineurin-dependent pathway thus contributes to the development of cardiac hypertrophy induced by CaM overexpression in the heart.     

Ovine atrial natriuretic factor: sequence of circulating forms and metabolism in plasma.

The sequence of ovine ANF is not known, yet sheep have been used extensively for ANF studies. We sequenced the circulating form of ovine ANF from coronary sinus plasma of sheep in paced heart failure. The main circulating form was identical to human ANF(99-126). Small amounts of ANF identical to human ANF(103-126) and ANF(101-126) peptides were also found. Incubation of labeled ANF in ovine serum suggested ANF(103-126) could be a degradation product of ANF(99-126). The endopeptidase-24.11 degradation product ANF(99-105/106-126) was not found in ovine plasma, in contrast to human plasma where it was a minor component. These results show that while the main circulating forms are similar in sheep and humans, there are differences in the minor peptides.     

Atrial natriuretic factor as marker of myocardial compromise in Chagas' disease

This study investigated the evolution of plasma atrial natriuretic factor (ANF) in patients in different stages of Chagas' disease and analyzed its usefulness as prognostic factor of the development of myocardial compromise in asymptomatic chagasic patients. Chagas' disease, a determinant of heart failure, is caused by the parasite Trypanosoma cruzi. A total of 21 chagasic patients were studied: 9 in the asymptomatic stage, 6 with conduction defects (CD), and 6 with chronic heart failure (CHF); and 31 controls: 16 healthy, 6 with CD, and 9 with CHF. Plasma ANF radioimmunoassay (RIA) and complementary studies were performed twice for each patient, with an interval period of 12 months. First sample: chagasic patients showed higher ANF levels in the CHF group than in CD and asymptomatic subjects; second sample: the peptide levels were higher in CHF patients than in the asymptomatic group. In non-chagasic CHF patients, ANF levels were higher than in CD patients and controls in both samples. ANF levels were not able to differentiate chagasic asymptomatic and CD patients from healthy subjects and CD controls; meanwhile, chagasic CHF patients showed lower plasma ANF than their controls. Furthermore, ANF is a sensitive marker capable of detecting gradual impairments in cardiac function in all patients studied.     

Myocardial dysfunction in rheumatoid arthritis: epidemiology and pathogenesis

Data from population- and clinic-based epidemiologic studies of rheumatoid arthritis patients suggest that individuals with rheumatoid arthritis are at risk for developing clinically evident congestive heart failure. Many established risk factors for congestive heart failure are over-represented in rheumatoid arthritis and likely account for some of the increased risk observed. In particular, data from animal models of cytokine-induced congestive heart failure have implicated the same inflammatory cytokines produced in abundance by rheumatoid synovium as the driving force behind maladaptive processes in the myocardium leading to congestive heart failure. At present, however, the direct effects of inflammatory cytokines (and rheumatoid arthritis therapies) on the myocardia of rheumatoid arthritis patients are incompletely understood.     

Atrial natriuretic factor inhibits the CRH-stimulated secretion of ACTH and cortisol in man.

Corticotrophic secretion of ACTH is stimulated by corticotropin-releasing hormone (CRH) and arginine vasopressin (AVP), and suppressed by glucocorticoids. In vitro and preclinical studies suggest that atrial natriuretic factor (ANF) may be a peptidergic inhibitor of pituitary-adrenocortical activity. The aim of this study was to elucidate a possible role of ANF as a modulator of ACTH release in humans. A bolus injection of 100 micrograms human CRH (hCRH) during a 30 min intravenous infusion of 5 micrograms/min human alpha atrial natriuretic factor (h alpha ANF) was administered at 19:00 to six healthy male volunteers. In comparison to saline, a blunted CRH-stimulated secretion of ACTH (mean maximum plasma level +/- SD 45 min after hCRH: saline 46.2 +/- 14.2 pg/ml, h alpha ANF 34.6 +/- 13.8 pg/ml, p-value = 0.007) and a delayed rise (10 min) in cortisol were detected. The maximum plasma cortisol levels remained nearly unchanged between saline and h alpha ANF administration (mean maximum plasma level +/- SD 60 min after hCRH: saline 182 +/- 26 ng/ml, h alpha ANF 166 +/- 54 ng/ml). No effects of h alpha ANF on basal cortisol levels were observed; in contrast, basal ACTH plasma levels were slightly reduced. Basal blood pressure and heart rate remained unaffected. In the control experiment, infusion of 3 IU AVP in the same experimental paradigm increased basal and stimulated ACTH and cortisol levels significantly in comparison to saline. These observations suggest that intravenously administered haANF inhibits the CRH-stimulated release of ACTH in man.