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Query: UMLS:C0018801 (
heart failure
)
72,216
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A-type and B-type natriuretic peptides (ANP and BNP) are secreted into the systemic circulation via the coronary sinus. Plasma levels of ANP and BNP at the coronary sinus should directly determine the systemic circulating levels. However, the metabolic clearance of these hormones are dependent on similar systems,
natriuretic peptide clearance receptor
(
NPR-C
) and neutral endopeptidase 24.11 (NEP), suggesting a possible interaction between ANP and BNP on metabolic clearance. In this study, we examined the interaction on metabolic clearance in patients with
heart failure
. We obtained blood samples from the coronary sinus and aortic root in 100 patients with
heart failure
and 28 control subjects. The difference in ANP and BNP levels between the coronary sinus and the aortic root is reflected partly by the metabolic clearance in the pulmonary circulation. In this study, we examined the possible interaction on metabolic clearance between ANP and BNP using a statistical procedure. The ratio of the level of BNP to ANP (BNP/ANP) was significantly higher in the aortic root than in the coronary sinus at any stage of
heart failure
. We performed multiple regression analysis using ANP and BNP levels at the coronary sinus as independent variables (X1 and X2, respectively) and the ANP level at the aortic root as a dependent variable (Y). The analysis showed that both X1 and X2 were significant variables in the equation. On the other hand, we performed the same analysis using the BNP level at the aortic root as a dependent variable (Y). The analysis showed that only X2 was a significant variable in the equation. This study suggests that (1) the metabolic clearance in the pulmonary circulation is higher for ANP versus BNP and (2) the amount of ANP cleared in the pulmonary circulation depends on the amount of both ANP and BNP secreted from the heart, whereas the amount of BNP cleared in the pulmonary circulation is dependent solely on the amount of BNP secreted from the heart.
...
PMID:Interaction on metabolic clearance between A-type and B-type natriuretic peptides in patients with heart failure. 1101 10
Brain natriuretic peptide (BNP) is a 32 amino acid cardiac natriuretic peptide hormone originally isolated from porcine brain tissue. The human BNP gene is located on chromosome 1 and encodes the prohormone proBNP. The biologically active BNP and the remaining part of the prohormone, NT-proBNP (76 amino acids) can be measured by immunoassay in human blood. Cardiac myocytes constitute the major source of BNP related peptides. The main stimulus for peptide synthesis and secretion is myocyte stretch. Recently, cardiac fibroblasts have also been shown to produce BNP. Other neurohormones may stimulate cardiac BNP production in different cardiac cell types. In contrast to atrial natriuretic peptides (ANP/NT-proANP), which originate mainly from atrial tissue, BNP related peptides are produced mainly from ventricular myocytes. Ventricular (NT-pro)BNP production is strongly upregulated in
cardiac failure
and locally in the area surrounding a myocardial infarction. In peripheral organs BNP binds to the natriuretic peptide receptor type A causing increased intracellular cGMP production. The biological effects include diuresis, vasodilatation, inhibition of renin and aldosterone production and of cardiac and vascular myocyte growth. In mice BNP gene knockout leads to cardiac fibrosis, gene over-expression to hypotension and bone malformations. BNP is cleared from plasma through binding to the
natriuretic peptide clearance receptor
type C, but it seems relatively resistant to proteolysis by neutral endopeptidase NEP 24.11. Clearance mechanisms for NT-proBNP await further study. While the plasma concentration of NT-proBNP and BNP is approximately equal in normal controls, NT-proBNP plasma concentration is 2-10 times higher than BNP in patients with
heart failure
. This relative change in peptide levels may be explained by shifts in cardiac secretion and/or clearance mechanisms.
...
PMID:Essential biochemistry and physiology of (NT-pro)BNP. 1498 73
Brain natriuretic peptide (BNP) was isolated originally from porcine brain extracts but was soon defined as a cardiac natriuretic hormone. Together with the highly homologous atrial natriuretic peptide, it forms a dual natriuretic peptide system of the heart. The main stimulus for proBNP synthesis and secretion from cardiac myocytes is myocyte stretch. On secretion, the propeptide is split into the biologically active BNP and the remaining part of the prohormone N-terminal proBNP (NT-proBNP). In
heart failure
increased wall stretch, neurohormonal activation and hypoxia stimulate BNP secretion. The recently demonstrated production of BNP by stimulated cardiac fibroblasts is of uncertain pathophysiologic importance. In contrast to atrial natriuretic peptide, BNP is a constitutively secreted hormone with relatively little intracellular storage of mature peptide. In the normal state, the atrium is the main cardiac production site, but as
heart failure
develops, there is a profound activation of ventricular NT-proBNP synthesis. BNP acts on distant tissues and causes diuresis, vasodilatation, and decreased renin and aldosterone secretion. Known mechanisms of BNP clearance from plasma include binding to the
natriuretic peptide clearance receptor
type-C and proteolysis by peptidase NEP 24.11. NT-proBNP has a longer half-life and thus higher plasma concentration than BNP. It probably is cleared from plasma by renal excretion and possibly other unknown pathways.
...
PMID:NT-ProBNP: the mechanism behind the marker. 1594 7
Dendroaspis natriuretic peptide (DNP) is a newly-described natriuretic peptide which lowers blood pressure via vasodilation. The
natriuretic peptide clearance receptor
(
NPR-C
) removes natriuretic peptides from the circulation, but whether DNP interacts with human
NPR-C
directly is unknown. The purpose of this study was to test the hypothesis that DNP binds to
NPR-C
. ANP, BNP, CNP, and the
NPR-C
ligands AP-811 and cANP(4-23) displaced [(125)I]-ANP from
NPR-C
with pM-to-nM K(i) values. DNP displaced [(125)I]-ANP from
NPR-C
with nM potency, which represents the first direct demonstration of binding of DNP to human
NPR-C
. DNP showed high pM affinity for the GC-A receptor and no affinity for GC-B (K(i)>1000 nM). DNP was nearly 10-fold more potent than ANP at stimulating cGMP production in GC-A expressing cells. Blockade of
NPR-C
might represent a novel therapeutic approach in augmenting the known beneficial actions of DNP in cardiovascular diseases such as hypertension and
heart failure
.
...
PMID:Dendroaspis natriuretic peptide binds to the natriuretic peptide clearance receptor. 1747 16
B-type natriuretic peptide (BNP) decreases cardiac preload and hypertrophy. As such, synthetic BNP, nesiritide, was approved for the treatment of acutely decompensated
heart failure
. However, two problems limit its therapeutic potential. First, ensuing hypertension decreases urine output, and second, guanylyl cyclase-A (GC-A), the primary signaling receptor for BNP, is down-regulated in
heart failure
. Thus, alternative or chimeric natriuretic peptides maintaining the renal but lacking the vasorelaxation properties of BNP provide an alternative approach. Here, we examined the ability of single amino acid substitutions in the conserved 17-amino acid disulfide ring structure of human BNP to activate GC-A and guanylyl cyclase-B (GC-B), which is not reduced in
heart failure
. We hypothesized that substitution of highly conserved residues in BNP with highly conserved residues from a GC-B-specific peptide would yield BNP variants with increased and decreased potency for human GC-B and GC-A, respectively. Substitution of Leu for Arg13 (l-bnp) yielded a 5-fold more potent activator of GC-B and 7-fold less potent activator of GC-A compared with wild type. l-bnp also bound GC-A 4.5-fold less tightly than wild type. In contrast, substitution of Met for Ser21 (M-BNP) had no effect. A peptide containing both the Leu and Met substitutions behaved similarly to l-bnp. Meanwhile, wild-type and l-bnp bound the
natriuretic peptide clearance receptor
with similar affinities. These data indicate that Arg13 of BNP is a critical discriminator of binding to guanylyl cyclase-linked but not clearance natriuretic peptide receptors, supporting designer natriuretic peptides as an alternative to wild-type BNP for the treatment of
heart failure
.
...
PMID:Arg13 of B-type natriuretic Peptide reciprocally modulates binding to guanylyl cyclase but not clearance receptors. 2053 Jun 52
