Regulation of blood pressure and salt homeostasis by endothelin

DE Kohan, NF Rossi, EW Inscho… - Physiological …, 2011 - journals.physiology.org
DE Kohan, NF Rossi, EW Inscho, DM Pollock
Physiological reviews, 2011journals.physiology.org
Endothelin (ET) peptides and their receptors are intimately involved in the physiological
control of systemic blood pressure and body Na homeostasis, exerting these effects through
alterations in a host of circulating and local factors. Hormonal systems affected by ET include
natriuretic peptides, aldosterone, catecholamines, and angiotensin. ET also directly
regulates cardiac output, central and peripheral nervous system activity, renal Na and water
excretion, systemic vascular resistance, and venous capacitance. ET regulation of these …
Endothelin (ET) peptides and their receptors are intimately involved in the physiological control of systemic blood pressure and body Na homeostasis, exerting these effects through alterations in a host of circulating and local factors. Hormonal systems affected by ET include natriuretic peptides, aldosterone, catecholamines, and angiotensin. ET also directly regulates cardiac output, central and peripheral nervous system activity, renal Na and water excretion, systemic vascular resistance, and venous capacitance. ET regulation of these systems is often complex, sometimes involving opposing actions depending on which receptor isoform is activated, which cells are affected, and what other prevailing factors exist. A detailed understanding of this system is important; disordered regulation of the ET system is strongly associated with hypertension and dysregulated extracellular fluid volume homeostasis. In addition, ET receptor antagonists are being increasingly used for the treatment of a variety of diseases; while demonstrating benefit, these agents also have adverse effects on fluid retention that may substantially limit their clinical utility. This review provides a detailed analysis of how the ET system is involved in the control of blood pressure and Na homeostasis, focusing primarily on physiological regulation with some discussion of the role of the ET system in hypertension.
American Physiological Society