UMLS:C0151744 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0151744 (myocardial ischemia)
31,282 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adrenomedullin is a novel hypotensive peptide, newly discovered in pheochromocytoma. Because immunoreactive adrenomedullin is present in human plasma, adrenomedullin may play a role in regulating blood pressure. A recent report showed that human adrenomedullin mRNA is expressed not only in pheochromocytoma but also in the normal adrenal medulla, kidney, lung, and ventricle. However, whether or not these organs actually release adrenomedullin into the circulation remains unknown. To investigate the sites of production and degradation of adrenomedullin in human subjects, we obtained blood samples from various sites and measured immunoreactive adrenomedullin concentrations. In study 1, blood samples were obtained from the infrarenal inferior vena cava, suprarenal inferior vena cava, superior vena cava, right atrium, right ventricle, pulmonary artery, pulmonary capillary, left ventricle, and aorta during cardiac catheterization in 15 patients with ischemic heart disease (67 +/- 10 years). In study 2, blood samples were taken from the infrarenal inferior vena cava, suprarenal inferior vena cava, right and left renal veins, and left adrenal vein in 5 hypertensive patients (42 +/- 14 years) suspected of having renovascular hypertension. In study 3, peripheral venous blood samples were obtained in 2 patients (males, 45 and 36 years old) with pheochromocytoma at rest and during hypertensive attacks. Plasma adrenomedullin concentrations were measured by a newly developed radioimmunoassay. In study 1, there were no significant differences in plasma adrenomedullin concentrations in various sites of the right-side circulation. There was no step-up of plasma adrenomedullin levels in the coronary sinus. However, the plasma concentration of adrenomedullin in aorta was slightly but significantly lower than in pulmonary artery.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Clinical studies on the sites of production and clearance of circulating adrenomedullin in human subjects. 796 20

In the biosynthesis of adrenomedullin (AM), glycine-extended AM, an intermediate form (iAM) processed from proAM is converted to AM[1-52]-NH2, the bioactive mature form of AM (mAM), by enzymatic amidation. We earlier showed that both molecular forms of AM circulate in human plasma. In the present study, to investigate the secretion and clearance sites of mAM and iAM in humans, we examined the plasma mAM and iAM concentrations in the femoral artery and vein (FA and FV), the aortic root and coronary sinus (AO and CS), and the pulmonary artery and capillary (PA and PC) of patients with ischemic heart disease. Plasma mAM in FV was significantly (p<0.001) higher than in FA. There also was a significant (p<0.001) step-up in the plasma mAM of the CS as compared to the AO. In contrast, plasma mAM was significantly (p<0.001) reduced in the PC as compared to the PA. However, such differences were not observed in plasma iAM levels. These findings suggest that in humans the vasculature of the lower extremities and the heart produce and secrete mAM and that the lung is a clearance site of circulating mAM.
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PMID:Secretion and clearance of the mature form of adrenomedullin in humans. 1040 10

To explore the role of adrenomedullin (ADM) in pathophysiology of ischemic heart disease, we investigated the effects of hypoxia on the production and secretion of ADM in cultured human coronary artery endothelial cells. Treatment with hypoxia (5% CO2/94% N2/1% O2) for 6 and 12 h increased expression levels of ADM mRNA 2.2-fold and fivefold compared with the normoxia control, respectively. The levels of immunoreactive ADM in the media were increased by 12-h hypoxia about fivefold compared with the control (39.0+/-1.1 fmol/10(5) cells per 12 h under hypoxia and 7.9+/-0.4 fmol/10(5) cells per 12 h under normoxia; P<0.01, n = 4, mean +/- SEM). Reverse-phase high-performance liquid chromatography of the extracts of culture media under normoxia and hypoxia showed one major peak eluting in the position of human ADM standard. The production and secretion of ADM were increased in cultured human coronary artery endothelial cells under hypoxia. ADM may therefore play an important pathophysiological role in ischemic heart disease.
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PMID:Induction of adrenomedullin by hypoxia in cultured human coronary artery endothelial cells. 1047 34

Human adrenomedullin (AM) precursor is converted to glycine-extended AM (AM-Gly), an inactive intermediate form of AM. Subsequently, AM-Gly is converted to active mature AM (AM-m) by enzymatic amidation. A recent study showed that two molecular forms of adrenomedullin (AM) are present in human plasma. In this study we investigated the production and clearance sites of two molecular forms of adrenomedullin in humans. We measured plasma levels of AM-m and AM-Total (T) (AM-m+AM-Gly) by immunoradiometric assay and calculated plasma levels of AM-Gly in blood samples taken from various sites during cardiac catheterization in patients with ischemic heart disease. Plasma AM-m levels were significantly lower in left-sided sites after passing through pulmonary circulation than in right-sided sites, whereas there were no significant differences in AM-Gly levels between left-sided sites and right-sided sites. These results suggest that AM-m produced in many organs is released into veins and that the main clearance sites of AM-m are the lungs. Considering that AM preferentially dilates pulmonary vessels rather than systemic vessels, a possible role of this peptide is suggested in the regulation of pulmonary vascular tonus.
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PMID:Production and clearance sites of two molecular forms of adrenomedullin in human plasma. 1098 55

Arterial hypotension, defined as a systolic blood pressure < 100 mmHg, is the most frequent complication in dialysis patients. Four types of hypotension can be identified: chronic, per-dialytic, hypotensive shock and the hypotension due to an unexpected cause. The pathophysiology is relatively well known when the hypotension is secondary to a decrease in the intravascular volume provoked by a sustained ultrafiltration rate during the dialysis session. However, new mechanisms also appear to play an-important role, namely, the dysfunction of the autonomic nervous system and the plasmatic accumulation of vasoactive substances such as adrenomedullin, nitric oxide, and asymmetric dimethyl arginine. Hypotensive episodes can be responsible of acute vascular complications such as myocardial ischemia, ischemic cerebro-vascular accidents, venous thrombosis (retina vein), intestinal ischemia and the aggravation of lower member arteritis. In the long-term, pre-dialysis hypotension has been found associated with an increased mortality rate. The goal of this article is to review the pathophysiological mechanisms involved in the arterial hypotension of dialysis patients, its treatment and the potential preventive measures.
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PMID:[Arterial hypotension in dialysis]. 1143 65

We investigated the potential roles of adrenomedullin (AM) in cardiovascular and renal function by somatic gene delivery. We showed that a single intravenous injection of the human AM gene under the control of cytomegalovirus promoter/enhancer induces a prolonged delay in blood pressure rise for several weeks in spontaneously hypertensive rats, Dahl salt-sensitive, DOCA-salt, and two-kidney one-clip hypertensive rats as compared to their respective controls injected with a reporter gene. Expression of the human AM transcript was identified in the heart, kidney, lung, liver and aorta of the rat after adenovirus-mediated AM gene delivery by RT-PCR followed by Southern blot analysis. Immunoreactive human AM levels were measured in rat plasma and urine following AM gene delivery. AM gene delivery induced significant reduction of left ventricular mass in these hypertensive animal models. It also reduces urinary protein excretion and increases glomerular filtration rate, renal blood flow and urinary cAMP levels. AM gene transfer attenuated cardiomyocyte diameter and interstitial fibrosis in the heart, and reduced glomerular sclerosis, tubular disruption, protein cast accumulation and renal cell proliferation in the kidney. In the rat model with myocardial ischemia/reperfusion injury, AM gene delivery significantly reduced myocardial infarction, apoptosis, and superoxide production. Furthermore, local AM gene delivery significantly inhibited arterial thickening, promoted re-endothelialization and increased vascular cGMP levels in rat artery after balloon angioplasty. Collectively, these results indicate that human AM gene delivery attenuates hypertension, myocardial infarction, renal injury and cardiovascular remodeling in animal models via cAMP and cGMP signaling pathways. These findings provide new insights into the role of AM in cardiovascular and renal function.
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PMID:Human adrenomedullin gene delivery protects against cardiovascular remodeling and renal injury. 1175 58

Omapatrilat was designed to inhibit simultaneously angiotensin-converting enzyme (ACE) and neutral endopeptidase (NEP). The ubiquitous involvement of the renin-angiotensin-aldosterone system, originally conceived as an axis of sodium and fluid metabolism in inflammation, thrombosis and cardiac and smooth muscle hypertrophy, is a major factor in disease progression for conditions as diverse as hypertension, heart failure, coronary artery disease and diabetes. Interruption of angiotensin II generation and bradykinin degradation by ACE inhibition is a major therapeutic advance in the management of these diseases. NEP metabolizes both bradykinin and the natriuretic peptides (atrial natriuretic peptide, brain natriuretic peptide, c-type natriuretic peptide and adrenomedullin). These peptides counter the adverse effects of angiotensin II by their vasodilator, natriuretic, diuretic and autonomic neural actions; by their antitrophic effects; and by suppressing plasma renin activity. These two systems can be considered key components of a cardiorenal axis that maintains blood pressure and cardiopulmonary blood volume within a stable range. This balance is compromised in the setting of heart failure and primary hypertension. The combination of ACE and NEP inhibition should augment the beneficial hemodynamic and tissue effects of bradykinin and the natriuretic peptides. Vasopeptidase inhibition, therefore, is a novel approach to cardiovascular therapy, with implications for hypertension, heart failure, renal function and ischemic heart disease.
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PMID:Vasopeptidase inhibition: a novel approach to cardiovascular therapy. 1187 87

Experimental studies have demonstrated that adrenomedullin (AM) has a positive inotropic action and exerts inhibitory effects against ventricular remodelling as an autocrine and paracrine factor. However, there is no clinical evidence for AM acting as a local regulator in the human heart. We measured the levels of various molecular forms of AM, i.e. an active form of mature AM (AM-m), an intermediate inactive form of glycine-extended AM (AM-Gly) and total AM (AM-T=AM-m+AM-Gly), in plasma and pericardial fluid using our newly developed immunoradiometric assay in consecutive 67 patients undergoing coronary artery bypass graft surgery. Pericardial fluid and plasma cAMP, atrial natriuretic peptide and brain natriuretic peptide levels were also measured. The relationships between pericardial fluid AM levels and ventricular functions and other hormone levels were analysed. The level of each molecular form of AM in pericardial fluid was closely correlated with that of the other molecular forms of AM in the fluid. However, levels were not correlated with those in plasma. AM-T levels were slightly higher in pericardial fluid than in plasma (+72%; P<0.05), whereas AM-m levels and AM-m/AM-T ratios were markedly higher in pericardial fluid than in plasma (AM-m, +994%; AM-m/AM-T ratio, +443%; both P<0.01). AM-m, AM-Gly and AM-T levels in pericardial fluid were correlated with indices of left ventricular function, and with atrial natriuretic peptide and brain natriuretic peptide levels. Interestingly, AM and cAMP levels were positively correlated in plasma, but negatively correlated in pericardial fluid. In addition, AM-m, AM-Gly and AM-T levels in pericardial fluid were higher in patients with acute coronary syndrome than in those with stable ischaemic heart disease (AM-m, +80%; AM-Gly, +96%; AM-T, +83%; all P<0.01). These results suggest that AM in pericardial fluid reflects cardiac synthesis, and that enhanced cardiac secretion of AM is associated with left ventricular dysfunction, ventricular overload and myocardial ischaemia. Considering that AM has positive inotropic, coronary vasodilatory and anti-remodelling actions, increased cardiac AM may play a compensatory role in the ischaemic and failing myocardium.
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PMID:Molecular forms of adrenomedullin in pericardial fluid and plasma in patients with ischaemic heart disease. 1204 23

Calcitonin gene-related peptide (CGRP) and adrenomedullin (ADM) are potent vasodilators in humans and improved myocardial ischemia is observed after CGRP administration. Receptors for CGRP and ADM were already identified in heart. Receptor activity-modifying proteins (RAMPs) determine the ligand specificity of the calcitonin receptor-like receptor (CRLR); co-expression of RAMP1 and CRLR results in a CGRP receptor, whereas the association of RAMP2 or RAMP3 with CRLR gives an ADM receptor. As CGRP and ADM may play a beneficial role in heart failure, we investigated whether the CGRP and ADM receptors are upregulated in chronic heart failure. We have used semi-quantitative RT-PCR and Western-blot analysis to detect and quantify the mRNA and the protein of RAMP1 and RAMP3 in both atria and ventricles of failing hearts 6 months after aortic banding in rats. Our results showed for the first time an up-regulation of RAMP1 and RAMP3 mRNAs and proteins in this model of cardiac failure. No change was observed in mRNAs coding for CRLR, RAMP2, RDC1 (canine orphan receptor), and ADM. The present results suggested after congestive heart failure in adult rats, an up-regulation of the CGRP receptor (by an increase in RAMP1 that is associated with CRLR) in atria and ventricles and of ADM receptor (by increased RAMP3 expression that is associated with CRLR) in atria. These findings support a functional role for CGRP and ADM receptors to compensate the chronic heart failure in rats.
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PMID:Increased myocardial expression of RAMP1 and RAMP3 in rats with chronic heart failure. 1205 17

Recent studies have demonstrated that the activation of protein kinase Akt attenuates myocardial ischemia/reperfusion injury. However, it remains unknown whether adrenomedullin (AM), which is also a potent Akt activator, has cardioprotective effects after ischemia/reperfusion. In the present study, Sprague-Dawley rats were exposed to a 30-min period of ischemia induced by ligation of the left coronary artery followed by 24-h reperfusion. They were randomized to receive intravenous administration of AM (0.05 microg/kg/min) or saline for 60 min after coronary ligation. We examined the hemodynamics and myocardial apoptosis 24 h after ischemia/reperfusion. Echocardiographic measurements were performed 4 weeks after ischemia/reperfusion. Myocardial infarct size was also measured histologically. AM significantly reduced left ventricular (LV) end-diastolic pressure (17 +/- 2 to 8 +/- 2 mmHg, p < 0.05) and the number of apoptotic nuclei in myocytes (387 +/- 39 to 147 +/- 72 per field, p < 0.05). AM significantly increased LV dP/dt(max) (4,803 +/- 228 to 5,672 +/- 199 mmHg/s, p < 0.05). AM significantly increased LV fractional shortening (23 +/- 2 vs. 28 +/- 2%, p < 0.05), and significantly reduced LV diastolic dimension (7.4 +/- 0.1 to 6.9 +/- 0.1 mm, p < 0.05) and myocardial infarct size (33 +/- 2 to 20 +/- 2%, p < 0.01) 4 weeks after ischemia/reperfusion. In conclusion, AM infusion during ischemia/reperfusion attenuated the development of LV remodeling and myocardial fibrosis in rats. Based on these results, the cardioprotective effects of AM may be attributed at least partly to its anti-apoptotic effect.
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PMID:Adrenomedullin infusion during ischemia/reperfusion attenuates left ventricular remodeling and myocardial fibrosis in rats. 1263 Aug 18

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