Effects of atrial natriuretic factor on the kidney and the renin-angiotensin-aldosterone system.
Review
Overview
abstract
ANF is a peptide hormone with peripheral and central effects on several physiologic control systems, which suggests broad involvement in the regulation of intravascular volume and cardiovascular homeostasis. ANF acts directly on the kidney to modulate renal vascular resistance, increase glomerular filtration rate, and decrease inner medullary hypertonicity. These hemodynamic effects act in concert to promote marked natriuresis and diuresis and to inhibit renin secretion by the kidney; the potential role of direct effects on tubular transport and on the juxtaglomerular cells remains to be clarified. ANF also inhibits steroidogenesis, most prominently affecting agonist-induced aldosterone biosynthesis by the adrenal cortex. ANF exerts a smooth muscle relaxant effect on isolated vessels constricted with various hormonal agonists. ANF causes especially pronounced antagonism of the adrenal and vascular actions of angiotensin II and antagonizes the latter peptide's central nervous system effects. Although complex systemic hemodynamic mechanisms are involved, ANF-induced vasorelaxation may contribute to its depressor action, particularly in states characterized by angiotensin II-induced vasoconstriction. Distention of the atria is a major stimulus to ANF release and evokes many responses that are mimicked by ANF infusion. Although ANF is not the sole or even dominant mediator of the responses to atrial distention, available data suggest that it plays a role in the renal and hormonal responses to intravascular volume expansion. Definitive assessment of its physiologic and pathophysiologic significance must await development of specific antagonists, but further studies on the mechanisms of action of ANF at the molecular, cellular, and systemic levels are likely to contribute significantly to our understanding of the complex process of volume regulation and cardiovascular homeostasis.