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: UMLS:C0038454 (stroke)
147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Brain natriuretic peptide (BNP) is secreted through the coronary sinus of the human heart. The purpose of this study was to determine whether BNP secretion from the heart is stimulated by exercise and to examine the relationship between pulmonary arterial BNP concentrations and hemodynamic measurements, especially cardiopulmonary hemodynamics, during exercise in patients with essential hypertension. The exercise protocol consisted of three fixed workloads (25, 50, 75 W) on a bicycle ergometer in the supine position. The mean pulmonary arterial BNP level at rest was 14.8 +/- 4.1 pg/mL, and BNP values gradually increased with higher stages of exercise. At the maximum exercise stage, the BNP value increased to 40.9 +/- 6.5 pg/mL. Close correlations of pulmonary arterial pressure (PAP) and pulmonary arterial wedge pressure (PAWP) with pulmonary arterial BNP level were observed at four points at rest and during each stage of exercise. In contrast, heart rate, mean blood pressure, cardiac index (CI), and stroke index (SI) were not correlated with BNP values. Results suggest that cardiac secretion of BNP was increased during exercise in essential hypertensive subjects, and the observed increase of BNP may be related to elevated PAP and PAWP. The enhancement of BNP secretion during exercise in these patients may reflect increased redistribution of blood to the cardiopulmonary compartment.
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PMID:Pulmonary arterial brain natriuretic peptide concentration and cardiopulmonary hemodynamics during exercise in patients with essential hypertension. 146 Nov 32

To study synthesis, storage, and secretion of brain natriuretic peptide (BNP) in the heart, we have measured BNP mRNA and BNP concentrations in the hearts of Wistar-Kyoto rats and also have investigated its secretion from the isolated perfused heart. The atrium expressed the BNP gene at a high level, and a considerable amount of BNP mRNA also was present in the ventricle, which corresponded to approximately 40% of the atrial BNP mRNA concentration. When tissue weight was taken into account, the total content of BNP mRNA in the ventricle was approximately threefold larger than that in the atrium, although the atrial natriuretic peptide (ANP) mRNA content in the ventricle was only 7% of that in the atrium. By contrast, the BNP concentration in the ventricle was 4.07 +/- 0.97 pmol/g, which was less than 1% of that in the atrium (451 +/- 86 pmol/g). The basal secretory rate of BNP from the isolated perfused whole heart was 49.3 +/- 6.1 fmol/min, approximately 60% of which was maintained even after atrial removal, whereas the secretory rate of ANP was reduced to less than 5%. We also studied age-matched spontaneously hypertensive rats-stroke prone. The rank order of the BNP mRNA concentration in the hearts of these rats was left ventricle greater than right ventricle greater than right atrium = left atrium, and the total BNP mRNA content and BNP secretory rate in the ventricle were twice as large as in Wistar-Kyoto rats. These results demonstrate that BNP is a novel cardiac hormone in rats and is predominantly synthesized in and secreted from the ventricle. This is in striking contrast to ANP, which occurs mainly in the atrium. The results also suggest possible pathophysiological roles of BNP in certain cardiovascular disorders.
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PMID:Natriuretic peptides as cardiac hormones in normotensive and spontaneously hypertensive rats. The ventricle is a major site of synthesis and secretion of brain natriuretic peptide. 183 May 18

In conscious dogs with and without congestive heart failure, we investigated hemodynamic, hormonal, and renal effects of a new natriuretic peptide [ANP-(95-126)]. Unlike ANP-(99-126), which is secreted in the heart and rapidly inactivated in the kidney, ANP-(95-126) most likely originates from the kidney and is not destroyed by proteolysis in membrane preparations of kidney cortex. In healthy animals intravenous ANP-(95-126) significantly decreased mean arterial pressure, cardiac output, stroke volume, and right atrial pressure and increased heart rate without changing mean pulmonary arterial pressure and total peripheral vascular resistance. In dogs with congestive heart failure, ANP-(95-126) showed no effects on mean arterial pressure, cardiac output, stroke volume, and peripheral vascular resistance but reduced right atrial pressure and pulmonary arterial pressure. Both, in dogs before and after the induction of heart failure, the new peptide led to a significant increase of urine flow and sodium and chloride excretion. In healthy dogs there were indirect indications for a small inhibitory effect on renin and aldosterone secretion. Thus, in contrast to the considerable attenuation of renal effects of ANP-(99-126) in heart failure, the efficacy of ANP-(95-126) on renal excretory function is well preserved, which may be because of the lack of proteolytic degradation in the kidney. These results suggest that ANP-(95-126) may have clinical implications for the treatment of patients with congestive heart failure.
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PMID:Effects of ANP-(95-126) in dogs before and after induction of heart failure. 217 65

Brain natriuretic peptide is a recently discovered neuropeptide. We used an antiserum against porcine brain natriuretic peptide to identify a system of immunoreactive innervation of the cerebrovascular tree in the rat. The internal carotid artery and the proximal portions of the middle and anterior cerebral and posterior communicating arteries were the most intensely innervated by immunoreactive fibers. The density of innervation decreased distally along the anterior, middle, and posterior cerebral arteries and the basilar and vertebral arteries. Brain natriuretic peptide and the related atrial natriuretic peptide are known to cause dilatation of cerebral arteries. Our findings suggest that brain natriuretic peptide may serve as a vasodilatory neuromodulator in the cerebral circulation.
Stroke 1990 Nov
PMID:Brain natriuretic peptide-like immunoreactive innervation of the cerebrovascular system in the rat. 223 76

The rapid hemodynamic effects of several N- and C-terminal deleted fragments of ANF, a potent ANF analogue and the recently characterised brain natriuretic peptide (BNP) were investigated in conscious sheep, and compared to the rapid hemodynamic actions of ANF 1-28. The hypotensive potency of all peptides studied was as follows: ANF 1-28 = PLO58 greater than 5-27 = ANF 5-28 = BNP greater than ANF 7-28 greater than ANF 13-28 = ANF 5-25. All peptides reduced blood pressure via a decrease in total peripheral resistance, excluding ANF 5-25 and 13-28 which were without effect on any parameter measured. These changes were associated with reflex increases in both heart rate and cardiac output, and a slight reduction in stroke volume. The duration of hypotensive/vasodilator action of ANF 1-28, 5-27, 5-28, 7-28 and BNP was approximately 3-4 minutes, whereas that of PLO58 was 7-8 minutes. In conclusion, amino acid deletions from the C- and N-terminal of the ANF molecule reduced the hypotensive/vasodilator potency of the peptide in conscious sheep. BNP produced similar rapid hemodynamic changes to ANF 1-28, suggesting that the two peptides may co-regulate blood pressure and possibly body fluids to promote fluid and cardiovascular homeostasis.
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PMID:Comparative hemodynamic actions of ANF-related peptides in conscious sheep. 253 86

The cardiovascular actions of the synthetic natriuretic peptide, atriopeptin II, were examined in conscious unrestrained spontaneously hypertensive rats and normotensive Wistar-Kyoto rats. The animals were chronically instrumented with miniaturized pulsed Doppler flow probes to allow measurement of regional blood flow, or with an electromagnetic flow probe on the ascending aorta to facilitate the measurement of cardiac output in the conscious rat. Intravenous infusion of increasing doses of atriopeptin II (0.25-4 micrograms/kg per min) caused a dose-dependent fall in mean arterial pressure in the hypertensive and normotensive rats. Blood flow in the renal, mesenteric, and hindquarters vascular beds was markedly decreased during the infusion of atriopeptin II, and regional vascular resistance was significantly increased in both groups of rats. Heart rate was significantly elevated (47 +/- 14 beats/min) in the spontaneously hypertensive rats during atriopeptin II infusion, but no change in heart rate was observed in the Wistar rats. In the hypertensive rats, atriopeptin II caused a marked dose-dependent decrease in cardiac output (maximal decrease = -39 +/- 4%) and stroke volume (maximal decrease = -48 +/- 4%). Central venous pressure and left atrial pressure were also significantly reduced during atriopeptin II infusion. Total peripheral resistance was increased over the infusion protocol by 26 +/- 3%. These data suggest that atriopeptin II infusion markedly attenuated cardiac output in the conscious spontaneously hypertensive rats. Total and regional vascular resistances were increased, possibly through reflex compensatory mechanisms, to maintain arterial pressure in the face of decreased cardiac output.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Failure of atriopeptin II to cause arterial vasodilation in the conscious rat. 315 90

To investigate the cardiovascular effects of pathophysiological levels of brain natriuretic peptide (BNP), 7 healthy subjects were submitted to equilibrium radionuclide angiocardiography in baseline conditions and during BNP infusion at increasing doses (4, 8, 10 and 12 pmol/kg.min for 20 min each). BNP induced a progressive, significant reduction in left ventricular end diastolic volume, stroke volume and end systolic volume and an increase in ejection fraction and heart rate. Cardiac output, arterial pressure and peripheral vascular resistance were unchanged. Activation of the sympathetic nervous system, as indicated by the significant increase in plasma norepinephrine levels, probably played a contributory role in the maintenance of cardiovascular homeostasis. These results indicate that BNP, at pathophysiological plasma concentrations, influences cardiovascular homeostasis in man.
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PMID:Cardiovascular function during brain natriuretic peptide infusion in man. 758 42

1. Elevated plasma concentrations of brain natriuretic peptide are found in conditions associated with impaired left ventricular diastolic function. The purpose of this study was to determine whether this peptide actually plays a physiological role in improving myocardial performance in diastole. 2. Nine normal subjects received infusions of brain natriuretic peptide or placebo in a randomized, double-blind, crossover study. Brain natriuretic peptide infusion produced a significant reduction in isovolumic relaxation time (means and 95% confidence interval for difference -10.8 ms, -14.5 to -7.0 ms) (P < 0.01) and significantly increased both the peak E/A velocity (0.54, 0.14-0.94) (P < 0.05) and the E/A time velocity integral (1.09, 0.20-1.98) (P < 0.05). 3. These responses were evident at concentrations of brain natriuretic peptide that produced no associated effects on blood pressure, heart rate or stroke distance. 4. Brain natriuretic peptide infusion in normal subjects significantly reduces isovolumic relaxation time and improves transmitral Doppler flow profiles, suggesting that this peptide may be important in the control of left ventricular diastolic relaxation in man.
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PMID:Brain natriuretic peptide: effect on left ventricular filling patterns in healthy subjects. 772 Mar 39

We evaluated the cardiovascular effects of pathophysiological plasma levels of brain natriuretic peptide in seven patients with mild to moderate essential hypertension by performing equilibrium radionuclide angiocardiography at baseline and during brain natriuretic peptide infusion at increasing doses (4, 8, 10, and 12 pmol/kg per minute for 20 minutes each). Brain natriuretic peptide induced a progressive reduction of left ventricular end-diastolic volume (from 107.5 +/- 10.3 to 89.0 +/- 11.0 mL at the end of all infusion periods) and end-systolic volume, whereas stroke volume did not show any significant change (from 64.9 +/- 5.9 to 62.7 +/- 7.8 mL). Cardiac output, arterial pressure, and peripheral vascular resistance did not change significantly. The lack of effects on systemic hemodynamics was probably due to compensatory activation of the sympathetic nervous system, as indicated by the significant increase in plasma norepinephrine levels (from 1.75 +/- 0.18 to 2.19 +/- 0.21 nmol/L), heart rate (from 68 +/- 6 to 81 +/- 6 beats per minute), peak ejection rate, and peak filling rate. These results indicate that brain natriuretic peptide, at the pathophysiological plasma concentrations reached in this study, influences cardiovascular homeostasis mainly by reducing cardiac preload.
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PMID:Cardiovascular effects of brain natriuretic peptide in essential hypertension. 773 16

Receptors for natriuretic peptide (NP) consist of three subtypes: NP-A, NP-B, and NP-C. Recent studies in cultured aortic cells have suggested a phenotype-related switching of the vascular NP receptor from NP-A to NP-B. To ascertain the biological significance of the phenomenon in vivo, we developed a sensitive and reproducible ribonuclease protection assay and determined each receptor messenger RNA (mRNA) level in the vascular vessels of stroke-prone spontaneously hypertensive rats, deoxycorticosterone acetate-salt hypertensive rats, and genetically hyperglycemic. Wistar fatty rats and in cultured aortic smooth muscle cells. The aortic NP-A receptor mRNA level was significantly up-regulated in both types of hypertensive rats, whereas the NP-B receptor mRNA level did not show any significant change. Both NP-A and NP-B receptor mRNA levels were significantly up-regulated in Wistar fatty rats compared with the control values. There was no significant up-regulation of NP-A receptor mRNA in the inferior vena cava of the stroke-prone spontaneously hypertensive rats. Although the NP-A receptor was always the predominant subtype in rat aortic tissue, NP-B receptor was the predominant subtype in aortic smooth muscle cells in culture. These findings suggest that up-regulation of the NP-A receptor, but not the subtype switching, is the major modulation of receptor gene expression in both hypertensive and diabetic rats.
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PMID:Modulation of vascular natriuretic peptide receptor gene expression in hypertensive and obese hyperglycemic rats. 775 Apr 64


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