Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.15.1 (ACE)
18,300 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

There is now substantial evidence supporting a role of the natriuretic peptides as a major defence mechanism against excess salt and water retention and high blood pressure. Because of this there has been considerable interest in the therapeutic potential of the natriuretic peptide system. Several approaches have been explored including the use of native peptides, the development of natriuretic peptides mimetics and targetting of endogenous clearance of natriuretic peptides. While ANP and BNP administration may be valuable in some circumstances, however, the limitations of the use of peptides especially for long-term treatment are well apparent. In view of this, considerable effort has been devoted to the development of orally active agents to enhance endogenous natriuretic peptides through inhibition of breakdown by neutral endopeptidase. This research has now led to the vasopeptidase inhibitors - dual inhibitors of both endopeptidase and angiotensin converting enzyme. These agents clearly provide a novel approach to enhance endogenous natriuretic peptide function on a background of reduced angiotensin II activity and may lead to an important advance in the treatment of hypertension and of conditions associated with overt salt and water overload.
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PMID:Atrial natriuretic peptide mimetics and vasopeptidase inhibitors. 1147 32

Mild heart failure is characterized by increases in atrial natriuretic peptide (ANP) and brain natriuretic peptide (BNP) in the absence of activation of the renin-angiotensin-aldosterone system (RAAS). Vasopeptidase (VP) inhibitors are novel molecules that coinhibit neutral endopeptidase 24.11, which degrades the natriuretic peptides (NPs) and ACE. In a well-characterized canine model of mild heart failure produced by ventricular pacing at 180 bpm for 10 days, we defined the renal and humoral actions of acute VP inhibition with omapatrilat (OMA, n=6) and acute ACE inhibition (n=5) alone with fosinoprilat. We also sought to determine whether the NPs participate in the renal actions of acute VP inhibition by the administration of OMA together with an intrarenal administration of the NP receptor antagonist HS-142-1 (n=5). OMA resulted in a greater natriuretic response than did ACE inhibition in association with increases in plasma cGMP, ANP, BNP, urinary cGMP, urinary ANP excretion, and glomerular filtration rate (P<0.05 for OMA versus ACE inhibition). Plasma renin activity was increased only in the group subjected to ACE inhibition. Administration of intrarenal HS-142-1 attenuated the renal properties of OMA in association with a decrease in urinary cGMP excretion despite similar increases in plasma ANP and BNP. This study provides new insight into a unique new pharmacological agent that has beneficial renal actions in experimental mild heart failure beyond the actions that are observed with ACE inhibition alone and that are linked to the NP system.
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PMID:Endogenous natriuretic peptides participate in renal and humoral actions of acute vasopeptidase inhibition in experimental mild heart failure. 1150 74

Under physiological conditions, the endocrine heart contributes to the maintenance of cardiovascular homeostasis through the polypeptide hormones ANF and BNP, which are members of the natriuretic peptide (NP) family. Given that NPs are of interest from the basic and clinical points of view, the genetic expression and secretion of ANF and BNP as well as the nature of the interaction of these hormones with their receptors has been the subject of extensive studies since the discovery of ANF in 1980. Following hemodynamic overload, increased secretion of NPs by the heart can be seen. This change may occur without an increase in gene expression as observed for atrial NPs following acute volume expansion, or it can occur with an increase in both ANF and BNP gene expression in atria only as seen in mineralocorticoid escape during which it is obvious that a critical decrease in hormone stores must be reached before transcriptional activation occurs. Chronic hemodynamic pressure or volume overload results in increased expression of NPs in atria and ventricles. Under these circumstances, the increased production of BNP by hypertrophic ventricles changes the normal plasma concentration ratio of ANF to BNP, a fact that has clinical diagnostic and prognostic implications. There are exceptions to this rule: chronic, severe L-NAME hypertension, which may occur without left ventricular hypertrophy, does not cause this effect and increased ventricular NP gene expression can occur in mineralocorticoid hypertension before detectable ventricular hypertrophy. Atrial and ventricular NP gene expression appears to be under different transcriptional control because pharmacological treatments such as chronic ACE inhibition or ET(A) receptor blockade can reverse the increased ventricular NP expression but has no detectable effect on atrial NP gene expression. This is not unlike the myosin heavy chain switch that is observed in certain pathologies, and can be pharmacologically reversed in a manner similar to NPs in the ventricles but it does not occur in atrial muscle. These observations made in vivo or using isolated adult atria often differ strikingly from results obtained using the mixed phenotype afforded by cardiocytes in culture, indicating that the kinds of questions addressed by each approach must be judiciously chosen. G-protein coupled receptor-mediated actions of neurohumors such as endothelin and phenylephrine are normally used to stimulate NP gene expression and release in different in vitro models. The main physiological stimulus for increased ANF release, atrial muscle stretch, also appears to rely on G-protein-coupled mechanisms. Alternative agonists and receptor types at play are suggested by the finding that circulating levels of BNP are selectively increased before and during overt cardiac allograft rejection episodes in human patients. The data suggest that enhanced BNP plasma levels could form a basis for a noninvasive test for cardiac allograft rejection. However, the molecular mechanism by which expression of NPs are regulated in the transplanted heart is not well understood. Conditioned medium from mixed lymphocyte reaction cultures, considered an in vitro model of transplantation immunity, induces specific upregulation of BNP as do individual pro-inflammatory cytokines. Findings such as these suggest that the study of NPs will continue to produce a wealth of information relevant to basic and clinical scientists.
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PMID:The physiological and pathophysiological modulation of the endocrine function of the heart. 1155 79

In addition to cardiac myocyte hypertrophy, proliferation and increased extracellular matrix production of cardiac fibroblasts occur in response to cardiac overload. This remodeling of the cardiac interstitium is a major determinant of pathologic hypertrophy leading to ventricular dysfunction and heart failure. Atrial and brain natriuretic peptides (ANP and BNP) are cardiac hormones produced primarily by the atrium and ventricle, respectively. Plasma ANP and BNP concentrations are elevated in patients with hypertension, cardiac hypertrophy, and acute myocardial infarction, suggesting their pathophysiologic roles in these disorders. ANP and BNP exhibit diuretic, natriuretic, and vasodilatory activities via a guanylyl cyclase-coupled natriuretic peptide receptor subtype (guanylyl cyclase-A or GC-A). Here we report the generation of mice with targeted disruption of BNP (BNP-/- mice). We observed focal fibrotic lesions in ventricles from BNP-/- mice with a remarkable increase in ventricular mRNA expression of ANP, angiotensin converting enzyme (ACE), transforming growth factor (TGF)-beta3, and pro-alpha1(I) collagen [Col alpha1(I)], which are implicated in the generation and progression of ventricular fibrosis. Electron microscopic examination revealed supercontraction of sarcomeres and disorganized myofibrils in some ventricular myocytes from BNP-/- mice. No signs of cardiac hypertrophy and systemic hypertension were noted in BNP-/- mice. In response to acute cardiac pressure overload induced by aortic constriction, massive fibrotic lesions were found in all the BNP-/- mice examined, accompanied by further increase of mRNA expression of TGF-beta3 and Col alpha1(I). We postulate that BNP acts as a cardiocyte-derived antifibrotic factor in the ventricle.
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PMID:Brain natriuretic peptide appears to act locally as an antifibrotic factor in the heart. 1155 81

The cardiovascular system is regulated by hemodynamic and neurohumoral mechanisms. These regulatory systems play a key role in modulating cardiac function, vascular tone, and structure. Although neurohumoral systems are essential in vascular homeostasis, they become maladaptive in disease states such as hypertension, coronary disease, and heart failure. The clinical success of ACE inhibitors has led to efforts to block other humoral systems. Neutral endopeptidase (NEP) is an endothelial cell surface zinc metallopeptidase with similar structure and catalytic site. NEP is the major enzymatic pathway for degradation of natriuretic peptides, a secondary enzymatic pathway for degradation of kinins, and adrenomedullin. The natriuretic peptides can be viewed as endogenous inhibitors of the renin angiotensin system. Inhibition of NEP increases levels of atrial natriuretic peptide (ANP), brain natriuretic peptide (BNP) of myocardial cell origin, and C-type natriuretic peptide (CNP) of endothelial cell origin as well as bradykinin and adrenomedullin. By simultaneously inhibiting the renin-angiotensin-aldosterone system and potentiating the natriuretic peptide and kinin systems, vasopeptidase inhibitors reduce vasoconstriction, enhance vasodilation, improve sodium/water balance, and, in turn, decrease peripheral vascular resistance and blood pressure and improve local blood flow. Within the blood vessel wall, this leads to a reduction of vasoconstrictor and proliferative mediators such as angiotensin II and increased local levels of bradykinin (and, in turn, nitric oxide) and natriuretic peptides. Preliminary clinical experiences with vasopeptidase inhibitors are encouraging. Thus, the combined inhibition of ACE and neutral endopeptidase is a new and promising approach to treat patients with hypertension, atherosclerosis, or heart failure.
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PMID:Vasopeptidase inhibitors: a new therapeutic concept in cardiovascular disease? 1159 26

The pharmacological profile of a vasopeptidase inhibitor is dependent on the ratio of neutral endopeptidase (NEP)vs angiotensin converting enzyme (ACE) inhibition of the particular drug. We used in vitro autoradiography to determine the local renal and cardiac NEP and ACE inhibition after oral treatment with the dual NEP/ACE inhibitor omapatrilat in rat. Maximal inhibition of both renal NEP and ACE was achieved at the omapatrilat dose of 40 mg kg(-1)day(-1). Effective local ACE inhibition was detected also in the myocardium. The haemodynamic effects were similar to captopril, but omapatrilat treatment produced more favorable effect on natriuretic peptide levels. In conclusion, good tissue penetration of omapatrilat and balanced NEP/ACE inhibition may prove to be useful in the treatment of hypertension and heart failure.
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PMID:Dual inhibition of angiotensin converting enzyme and neutral endopeptidase by omapatrilat in rat in vivo. 1171 72

The important neuroendocrine systems involved in heart failure are reviewed with special emphasis on their possible role in pathophysiology and their relation to prognostic and diagnostic information. Plasma levels of noradrenaline (NA), renin, vasopressin, endothelin-1, atrial natriuretic peptide (ANP), brain natriuretic peptide (BNP) and tumour necrosis factor-alpha (TNF-alpha) are all elevated in heart failure. Activity of the sympathetic nervous system as reflected by NA is correlated to mortality and seems to possess independent prognostic information. Several studies have now documented the beneficial effect of beta-blockade in chronic heart failure (CHF). Renin seems to be a poor prognostic marker in CHF possibly because of the interference with diuretic treatment, angiotensin converting enzyme (ACE)-inhibitors and angiotensin II antagonist, and probably also because of the significance of tissue renin-angiotensin system (RAS), poorly reflected by plasma renin. On the other hand, several large-scale trials with ACE-inhibitors and angiotensin II antagonists have demonstrated reduced mortality and morbidity in CHF. Plasma vasopressin does not seem to possess prognostic information but testing of non-peptide antagonists is ongoing. Endothelin-1 seems to have independent prognostic information and endothelin receptor antagonists may represent a therapeutic possibility. The natriuretic peptides ANP and BNP are correlated to prognosis and possess independent information. Brain natriuretic peptide and N-terminal ANP seem to increase early, i.e. in asymptomatic heart failure. Plasma BNP being more stable than ANP is therefore a promising measure of left ventricular dysfunction. Increase in ANP and BNP, potentially beneficial, may be achieved by administration of neutral endopeptidase inhibitors, at present an unsettled therapeutic possibility. Several cytokines are increased in heart failure and especially TNF-alpha has drawn attention. Experimental studies suggest that TNF-alpha is important in the pathophysiology of heart failure and preliminary studies indicate that inhibition of TNF-alpha seems to be a possible therapeutic approach. Thus, neuroendocrine markers seem to (i) have a role in diagnosis and classification of heart failure, (ii) be useful in providing a 'neuroendocrine profile' which enlightens different aspects of heart failure, and therefore (iii) in the future probably will be valuable in the choice of medical treatment of the individual patient. In addition to beta-blockers, ACE-inhibitors and angiotensin II antagonists several new drugs based on neuroendocrine modification are on their way and might become important in the future.
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PMID:Heart failure and neuroendocrine activation: diagnostic, prognostic and therapeutic perspectives. 1172 73

This study was designed to examine whether aldosterone is produced from the hearts of patients with essential hypertension without left ventricular systolic dysfunction (LVSD). The study population consisted of 20 patients with essential hypertension without LVSD and 22 control subjects. Plasma levels of aldosterone, serum ACE activity, and B-type natriuretic peptide levels were measured in the anterior interventricular vein (AIV), coronary sinus, and aortic root during cardiac catheterization. The plasma aldosterone levels were significantly higher in AIV and coronary sinus than in aortic root (99+/-11 versus 88+/-10 pg/mL, P<0.01, and 100+/-12 versus 88+/-10 pg/mL, P<0.01, respectively) in the hypertension group. On the other hand, there were no significant differences in aldosterone levels for these sites in the control group. There were no significant differences in ACE activity levels between aortic root, AIV, and coronary sinus in either the hypertension or control group. The levels of B-type natriuretic peptide were significantly higher in AIV than in aortic root in both groups. The difference in aldosterone levels between AIV and aortic root (Delta Aldo[AIV-Ao]) had a significant positive correlation with the difference in ACE activity between AIV and aortic root (DeltaACE[AIV-Ao]) (r=0.501, P<0.05) in the hypertension group. Both Delta Aldo[AIV-Ao] and DeltaACE[AIV-Ao] had a significant positive correlation with diastolic blood pressure (r=0.498, P<0.05; r=0.577, P<0.01, respectively) in the hypertension group. We conclude that production of aldosterone is activated in the left ventricles in patients with essential hypertension without LVSD in proportion to the severity of hypertension.
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PMID:Aldosterone is produced from ventricles in patients with essential hypertension. 1201 76

Aldosterone breakthrough during ACE inhibitor therapy has been reported. This study investigates changes in plasma aldosterone concentration (PAC) and its mechanism and effects on target organ damage during long-term angiotensin II type 1 (AT1) receptor antagonist (AT1A) therapy in hypertensive rats. An AT1A (candesartan, 1 mg/kg per day PO) was administered in stroke-prone spontaneously hypertensive rats from 4 weeks of age for 34 weeks. PAC was significantly decreased during the first 4 weeks but showed aldosterone breakthrough after 8 weeks of AT1A administration. Plasma angiotensin II concentration was significantly elevated, whereas no change was seen in plasma ACTH or serum potassium. The mechanism(s) of aldosterone breakthrough were investigated by giving high doses of candesartan (3 mg/kg per day PO), dexamethasone (200 microg/kg per day IP), or the AT2 antagonist (PD123319, 10 mg/kg per day SC) during the last week of the 24-week AT1A treatment period. Dexamethasone and AT2 antagonist but not high-dose AT1A produced a significant decrease in PAC, with a larger decrease produced by the AT2 antagonist. To clarify the effects of the residual aldosterone, effects of coadministration of low-dose spironolactone (10 mg/kg per day SC), an aldosterone antagonist, on left ventricular hypertrophy and expression of brain natriuretic peptide mRNA were determined. Low-dose spironolactone further improved left ventricular hypertrophy and brain natriuretic peptide mRNA expression despite no additional depressor effect. These results suggest that aldosterone breakthrough occurs during long-term AT1A therapy, mainly by an AT2-dependent mechanism. Residual aldosterone may attenuate the cardioprotective effects of AT1A.
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PMID:Aldosterone breakthrough during angiotensin II receptor antagonist therapy in stroke-prone spontaneously hypertensive rats. 1210 34

In heart failure, the benefits of adding angiotensin-receptor blockade to ACE inhibitors have been studied only with submaximal doses of ACE inhibitors. We included 20 patients (LVEF 24 7%, NYHA II-III), with no clinical or therapeutic variations in the previous three months, who were receiving maximal doses of ACE inhibitors. We added losartan 50 mg once a day. At six months, SBP decreased (115 8 vs. 106 9 mmHg; p = 0.001), LVEF increased (24.4 7 vs. 34.1 7%; p < 0.001), ventricular end-diastolic volumes decreased (220 58 vs 190 46 ml; p = 0.007), and SPAP decreased (43 8 vs. 35 7 mmHg; p < 0.001). Seven patients improved one degree on the NYHA scale (p = 0.004), but VO2max did not change (20.8 5.2 vs. 21.8 5.0 ml/kg/min, p = 0.120). Plasma levels of norepinephrine, at rest and maximal exercise, brain natriuretic peptide, and renin were similar. After maximum ACE inhibitor doses, the addition of losartan is safe and associated with an improvement in ventricular function and NYHA functional class, but with no change in neurohormonal status.
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PMID:[Addition of an angiotensin II receptor blocker to maximal dose of ACE inhibitors in heart failure]. 1219 83


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