Abstract
Due to the abundance of seminal discoveries establishing a strong causal relation between changes in aldosterone signaling, the activity of the epithelial Na+ channel (ENaC) and blood pressure, the role of ENaC in health and disease is understood almost exclusively through the concept that this channel functions (in the distal nephron) as a key end-effector controlling renal sodium excretion during feedback regulation of blood pressure by the renin-angiotensin-aldosterone system (RAAS). Recent findings of aldosterone-independent stimulation of ENaC by vasopressin challenge the completeness of dogmatic understanding where ENaC serves solely as an end-effector of the RAAS important for control of sodium balance. Rather the consequences of activating ENaC in the distal nephron appear to depend on whether the channel is activated in the absence (by aldosterone) or presence [by vasopressin (AVP)] of simultaneous activation of aquaporin 2 water channels. Thus, a unifying paradigm has ENaC at the junction of two signaling systems that sometimes must compete: one controlling and responding to changes in sodium balance, perceived as mean arterial pressure, and the other water balance, perceived as plasma osmolality.
Highlights
Due to the abundance of seminal discoveries establishing a strong causal relation between changes in aldosterone signaling, the activity of the epithelial Na+ channel (ENaC) and blood pressure, the role of ENaC in health and disease is understood almost exclusively through the concept that this channel functions as a key end-effector controlling renal sodium excretion during feedback regulation of blood pressure by the renin-angiotensin-aldosterone system (RAAS)
Aldosterone through the mineralocorticoid receptor (MR) stimulates ENaC in the aldosterone-sensitive distal nephron (ASDN) to minimize renal sodium excretion in protection of plasma sodium (Rossier et al, 2002; Geller, 2005)
Adrenalectomy, similar to other adrenal insufficient states, though, causes pronounced renal sodium and volume wasting; likely through loss of a non-ENaC, aldosterone-dependent but activity of ENaC. Vasopressin (AVP)-insensitive mechanism (Mironova et al, 2012). This muddies the waters with respect to whether AVP-dependent stimulation of ENaC in adrenal insufficiency is a compensatory response to decreases in volume or a result independent of actions on vascular volume
Summary
Due to the abundance of seminal discoveries establishing a strong causal relation between changes in aldosterone signaling, the activity of the epithelial Na+ channel (ENaC) and blood pressure, the role of ENaC in health and disease is understood almost exclusively through the concept that this channel functions (in the distal nephron) as a key end-effector controlling renal sodium excretion during feedback regulation of blood pressure by the renin-angiotensin-aldosterone system (RAAS). Aldosterone through the mineralocorticoid receptor (MR) stimulates ENaC in the ASDN to minimize renal sodium excretion in protection of plasma sodium (Rossier et al, 2002; Geller, 2005). There is strong support for a tight positive relation between the levels and actions of aldosterone and ENaC activity, renal sodium reabsorption and blood pressure.
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