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Atrial natriuretic peptide
Atrial natriuretic peptide (ANP), atrial natriuretic factor (ANF), or atriopeptin, is a polypeptide hormone involved in the homeostatic control of body water, sodium, and adiposity. It is released by atrial myocytes, muscle cells in the atria of the heart, in response to high blood pressure. ANP acts to reduce the water, sodium and adipose loads on the circulatory system, thereby reducing blood pressure.
Additional recommended knowledge
ANP is a 28-amino acid peptide with a 17-amino acid ring in the middle of the molecule. The ring is formed by a disulfide bond between two cysteine residues at positions 7 and 23. ANP is closely related to BNP (brain natriuretic peptide) and CNP (C-type natriuretic peptide), which all share the same amino acid ring. ANP was discovered in 1981 by a team in Ottawa led by Adolfo J. de Bold after they made the seminal observation that injection of atrial (but not ventricular) tissue extracts into rats caused copious natriuresis.
ANP is produced, stored and released by atrial myocytes, muscle cells in the atria of the heart. It is released in response to a variety of signals induced by hypervolemia, exercise or caloric restriction. The hormone is constitutively expressed in the ventricle in response to stress induced by increased afterload (eg. increased ventricular pressure from aortic stenosis) or injury (eg. myocardial infarction).
ANP is secreted in response to:
The atria become distended by high extracellular fluid and blood volume, and atrial fibrillation. Notably, ANP secretion increases in response to immersion of the body in water, which causes atrial stretch due to an altered distribution of intravascular fluid. ANP secretion in response to exercise has also been demonstrated in horses.
ANP binds to a specific set of receptors - ANP receptors. Receptor-agonist binding causes a reduction in blood volume and therefore a reduction in cardiac output and systemic blood pressure. Lipolysis is increased and renal sodium reabsorption is decreased. The overall effect of ANP on the body is to counter increases in blood pressure and volume caused by the renin-angiotensin system.
Mediation of the effects of ANP is achieved through gradual degradation of the peptide by the enzyme neutral endopeptidase (NEP). Recently NEP inhibitors have been developed, although they have not yet been licensed. They may be clinically useful in treating congestive heart disease.
Other natriuretic factors
In addition to the mammalian natriuretic peptides (ANP, BNP, CNP), two others have been isolated. Tervonen (1998) described a salmon natriuretic peptide, named Salmon cardiac peptide, with similar structure and properties. As well, Dendroaspis Natriuretic Peptide (DNP) was discovered in the venom of the green mamba by Schweitz et al. (1992).
Used in conjunction with other clinical information, measurement of B-type natriuretic peptide (BNP) can help determine whether a patient's dyspnea is caused by congestive heart failure in which BNP levels are elevated. This laboratory test has become a valuable and quick method for diagnostic work-up of patients presenting to the emergency department (ED) with acute dyspnea.
Neutral endopeptidase (NEP)is the enzyme that metabolizes natriuretic peptides. Several inhibitors of NEP are currently being developed to treat disorders ranging from hypertension to heart failure. Most of them are dual inhibitors. Omapatrilat (dual inhibitor of NEP and Angiotensin Converting Enzyme) developed by BMS did not receive FDA approval due to angioedema safety concerns. Other dual inhibitors of NEP with ACE / angiotensin receptor are currently being developed by pharmaceutical companies.
|This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Atrial_natriuretic_peptide". A list of authors is available in Wikipedia.|