UMLS:C0020538 - FACTA Search

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Query: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hypertension in organ transplant recipients is associated with several functional modifications of the renin angiotensin system (RAS), which varies according to the type of transplanted organs (kidney, heart, liver or bone marrow) and the immunosuppressive regimen. Before transplantation, chronic organ failure is associated with direct and indirect stimulation of both systemic and local RASs. After transplantation, cyclosporin per se is the major determinant of hypertension. It induces stimulation of both systemic and local RAS via direct and indirect effects within the kidney and peripheral vessels. In kidney transplant recipients, ischaemia from the native kidneys and from the graft, due to acute or chronic rejection, also contributes to RAS stimulation. In cardiac transplant recipients, several haemodynamic parameters, abnormal cardiorenal neuroendocrine reflex mechanism and other hormonal systems (ANF, AVP, catecholamines) stimulate the RAS.
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PMID:Effects of transplantation on the renin angiotensin system (RAS). 988 4

The aim of this study was to evaluate plasma levels of ANF in patients with catecholamine-secreting tumors with and without hypertension and to relate ANF secretion to levels of plasma and urinary catecholamines and blood pressure. Twenty-one pheochromocytoma (15 with sustained, 6 with paroxysmal hypertension), 6 neuroblastoma (1 hypertensive) patients and 28 aged-matched controls were studied in basal conditions. Plasma and urinary norepinephrine (NE),epinephrine (E), dopamine (DA) and DOPA were determined by HPLC-ED and plasma ANF by RIA. Both neuroblastoma and pheochromocytoma patients had significantly higher plasma ANF levels than controls. Neuroblastomas showed higher ANF concentration than pheochromocytomas. No differences were found in plasma ANF between hypertensive and normotensive patients. Pheochromocytomas with ANF levels within the normal range had plasma and urinary NE and urinary DA and DOPA levels significantly higher than patients with high ANF. Plasma ANF levels were unrelated to systolic or diastolic blood pressure or heart rate. A negative correlation between plasma ANF and urinary DA was found only in the patients groups. In conclusion, plasma ANF was increased in pheochromocytoma and neuroblastoma patients. Our data suggest that the excessive catecholamine secretion is not responsible for the increased ANF secretion in these patients. The significance of the relationships among plasma ANF and urinary and plasma catecholamines requires further investigation.
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PMID:Increased plasma atrial natriuretic factor in catecholamine-producing tumor patients. 1051 32

Is produced at the right atrium and is acting upon four types of receptors. The main effects of ANF are: renal effects, by rapid increasing and prolongation of glomerular filtration; neuroumoral effects--the inhibition of renin-angiotensin system and of the release of aldosterone; effects upon the vascular wall, with vasodilatation; another effect is the regulation of the hydrosalin balance. The therapeutical endpoints of ANF are related to its action in some diseases like: cardiac failure, arterial hypertension, myocardia infarction, paroxysmal arrhythmias; in some of them it is a very fiable predictive marker. ANF represents o neuroumoral mechanism which play an important role in functional regulation of the cardio-vascular system.
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PMID:[ANF--atrial natriuretic factor]. 1075 67

The objectives of the present study were (1) to determine whether oxidized LDL and lysophosphatidylcholine (lyso-PtdCho), a major phospholipid component of oxidized LDL, stimulate the migration of cultured human mesangial cells and (2) to investigate the possible effects on mesangial cell migration of the cardiac natriuretic peptides atrial and brain natriuretic peptide (ANP and BNP). Oxidized LDL (10 and 100 microg/mL) and lyso-PtdCho (10(-7) to 10(-5) mol/L) stimulated migration in a concentration-dependent manner. In contrast, the effects of native LDL and phosphatidylcholine were modest or nonexistent. Protein kinase C (PKC) inhibitor and downregulation of PKC activity by phorbol ester inhibited oxidized LDL- and lyso-PtdCho-induced migration. Human ANP(1-28) and human BNP-32 significantly inhibited oxidized LDL- and lyso-PtdCho-induced migration in a concentration-dependent manner. C-ANF (des-[Glu(18),Ser(19),Gly(20),Leu(21),Gly(22)]ANP(4-23)), a specific ligand for ANP clearance receptors, could not inhibit oxidized LDL- and lyso-PtdCho-induced migration. Inhibition by ANP and BNP of lyso-PtdCho-induced migration was paralleled by an increase in the cellular level of GMP. Oxidized LDL- and lyso-PtdCho-induced migrations were inhibited by 8-bromo-cGMP. The results suggest that oxidized LDL and lyso-PtdCho stimulate the migration of human mesangial cells, at least in part, through a PKC-dependent process and that ANP and BNP inhibit this stimulated migration, probably through a cGMP-dependent process.
Hypertension 2000 Apr
PMID:Effects of cardiac natriuretic peptides on oxidized low-density lipoprotein- and lysophosphatidylcholine-induced human mesangial cell migration. 1077 71

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

Increased cardiac angiotensin converting enzyme-1 (ACE1) is found in individuals who carry a deletion in intron 16 of ACE1 gene or in individuals who suffer from cardiac disorders, such as hypertrophy. However, whether a single increase in ACE1 expression leads to spontaneous cardiac defects remains unknown. To determine if the increased cardiac ACE1 actively plays a role or is merely the consequence of pathological changes in the process of cardiac hypertrophy, we generated a transgenic rat model with selective over-expression of human ACE1 in the cardiac ventricles. The left ventricular ACE1 activity is elevated about 50-fold in transgenic rats. Angiotensin-1 perfusion of isolated hearts demonstrated a significant decrease in coronary artery flow compared with non-transgenic littermates, suggesting that the transgenic ACE1 is functional. Neither cardiac hypertrophy nor other morphological abnormalities were observed in transgenic rats under standard living conditions. It was found, however, after induction of hypertension by suprarenal aortic banding, that the degree of cardiac hypertrophy in transgenic rats was significantly higher than that of banded control rats. The expressions of both ANF and collagen III, molecular markers of cardiac hypertrophy, were also increased in banded transgenic rats compared with banded control. Our results suggest that increased cardiac ACE1 does not trigger but augments cardiac hypertrophy.
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PMID:Over-expression of angiotensin converting enzyme-1 augments cardiac hypertrophy in transgenic rats. 1512

Atrial cardiocytes in the heart of mammals produce in a regulated manner the polypeptide hormones atrial natriuretic factor (ANF, ANP) and brain natriuretic peptide (BNP). The biological actions of ANF and BNP are similar; they include the modulation of systems that tend to increase extracellular fluid volume and blood pressure, such as the renin-angiotensin system and the sympathetic nervous system. Additionally, both hormones have potent growth-regulating properties. ANF and BNP signal by activating membrane-bound guanylyl cyclase receptors, leading to an increase in intracellular cGMP and thus affecting the activity of cGMP-regulated enzymes and ion channels. Under chronic hemodynamic overload, cardiac ANF and BNP synthesis and secretion are increased. This increase is viewed as a cardioprotective mechanism, given the beneficial effects of ANF and BNP on cardiac preload, afterload and cardiovascular growth. As discussed in this review, some basic facts regarding the synthesis and secretion of ANF and BNP and their peripheral effects remain to be clarified. Nevertheless, at the clinical level, the elevation of circulating ANF and BNP in heart failure or following acute coronary syndromes has been shown to have diagnostic and prognostic implications. Moreover, these peptides themselves hold promise as therapeutic agents in the treatment of heart failure. Additional pharmaceutical applications might be gleaned from current preclinical and clinical studies showing beneficial effects of ANF or BNP in the treatment of hypertension, bronchospasm and in tissue remodeling following acute myocardial infarction.
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PMID:The endocrine function of the heart. 1626 46

Day/night rhythms are recognized as important to normal cardiovascular physiology and timing of adverse cardiovascular events; however, their significance in disease has not been determined. We demonstrate that day/night rhythms play a critical role in compensatory remodeling of cardiovascular tissue, and disruption exacerbates disease pathophysiology. We use a murine model of pressure overload cardiac hypertrophy (transverse aortic constriction) in a rhythm-disruptive 20-hour versus 24-hour environment. Echocardiography reveals increased left ventricular end-systolic and -diastolic dimensions and reduced contractility in rhythm-disturbed transverse aortic constriction animals. Furthermore, cardiomyocytes and vascular smooth muscle cells exhibit reduced hypertrophy, despite increased pressure load. Microarray and real-time PCR demonstrate altered gene cycling in transverse aortic constriction myocardium and hypothalamic suprachiasmatic nucleus. With rhythm disturbance, there is a consequent altered cellular clock mechanism (per2 and bmal), whereas key genes in hypertrophic pathways (ANF, BNP, ACE, and collagen) are downregulated paradoxical to the increased pressure. Phenotypic rescue, including reversal/attenuation of abnormal pathology and genes, only occurs when the external rhythm is allowed to correspond with the animals' innate 24-hour internal rhythm. Our study establishes the importance of diurnal rhythm as a vital determinant in heart disease. Disrupted rhythms contribute to progression of organ dysfunction; restoration of normal diurnal schedules appears to be important for effective treatment of disease.
Hypertension 2007 May
PMID:Disturbed diurnal rhythm alters gene expression and exacerbates cardiovascular disease with rescue by resynchronization. 1733 37

Reduced expression of alpha-MHC plays a significant role in cardiac contractile dysfunction from hemodynamic overload. Previously, Pur proteins and YY1 have been shown to play a role in alpha-MHC repression during heart failure induced by pressure overload and by spontaneous hypertension, respectively. This was not observed in volume-overload-induced heart failure, suggesting additional regulatory mechanisms for alpha-MHC repression. The present study was performed to identify volume overload responsive transcription factors involved in alpha-MHC gene regulation. DNA binding activity of several transcription factors was evaluated in a functionally characterized rat model of heart failure induced by aorto-caval shunt. After 10 weeks of shunt, severe LV dilatation and reduced LV function were accompanied by increased expression of ANF and beta-MHC, and decreased expression of alpha-MHC. This was associated with dramatic (10-fold) activation of AP-1 together with increased expression of c-fos and c-jun. AP-1 activation was not observed following 4 weeks of shunt when cardiac function was preserved. In cultured cardiomyocytes, induction of AP-1 by PMA attenuated alpha-MHC mRNA by 60%. Transient transfection assays mapped PMA responsive sequence to -582 to -588 bp of alpha-MHC promoter. Deletion or mutation of these nucleotides had minimal effect on basal promoter activity but played a dominant role in PMA-mediated repression of alpha-MHC promoter activity. Over-expression of c-fos and c-jun in cardiomyocytes inhibited alpha-MHC promoter activity in a concentration dependent manner. Data suggest a repressive role of AP-1 in alpha-MHC expression and its possible involvement in the transition from compensatory hypertrophy to heart failure in chronic volume overload.
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PMID:Overt expression of AP-1 reduces alpha myosin heavy chain expression and contributes to heart failure from chronic volume overload. 1772 Jan 85

Binding sites for atrial natriuretic factor (ANF-28) were studied in forebrain areas of spontaneously hypertensive (SHR) and Wistar Kyoto (WKY) normotensive male rats by quantitative autoradiography. The maximum binding capacity of [(125)I]ANF-28 was significantly reduced in the subfornical organ and choroid plexus of 4 and 14 week old SHR rats compared to age-matched WKY controls. In contrast, the affinity constant for [(125)I]ANF-28 binding was elevated in the choroid plexus of 14 week old SHR rats. These findings indicate that marked reductions in the number of ANF-28 binding sites occur in weanling SHRs as well as in adult SHRs with elevated arterial blood pressures. Thus, these persistant reductions in forebrain ANF-28 binding sites in SHR rats may contribute to the development and maintenance of this form of experimental hypertension.
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PMID:Forebrain binding sites for atrial natriuretic factor: Alterations in spontaneously hypertensive (SHR) rats. 2049 15

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