Recently, the molecular basis of four forms of severe hypertension transmitted on an autosomal basis has been elucidated: (a) the glucocorticoid-remediable aldosteronism (GRA), (b) the syndrome of apparent mineralocorticoid excess (AME), (c) activating mutation of the mineralocorticoid receptor and (d) Liddle's syndrome.
Glucocorticoid-remediable aldosteronism, apparent mineralocorticoid excess, and mutations in the mineralocorticoid receptor gene have given us brilliant insights into mineralocorticoid-induced hypertension.
Because the plasma concentration of cortisol in humans is about 30-fold higher than that of corticosterone, these findings strongly suggest that cortisone is one of the endogenous steroids responsible for early-onset hypertension in men and nonpregnant women carrying the MR(L810) mutation.
In some of these disorders, mineralocorticoid hypertension results from activation of the mineralocorticoid receptor by other steroids (cortisol, deoxycorticosterone), by primary activation of the receptor itself, or by constitutive overactivity of the renal epithelial sodium channel.
Mineralocorticoid synthesis and degradation, the mineralocorticoid receptor, sodium channel resorptive mechanisms, and regulation of the thiazide-sensitive sodium-chloride cotransporter have been shown to cause hypertension.
However, all steroid ligands that display antagonist properties when bound to MR(WT), have been shown to activate a mutant receptor (MR(L810)) associated with a severe form of hypertension.
The maximum LOD for early-onset hypertension in African Americans was also on chromosome 4 at 153 cM (LOD = 2.05) and overlies the mineralocorticoid receptor.
A gain-of-function mutation resulting in the S810L amino acid substitution in the hormone-binding domain of the mineralocorticoid receptor (MR, locus symbol NR3C2) is responsible for early-onset hypertension that is exacerbated in pregnancy.
In AME, defective HSD11B2 enzyme activity results in overstimulation of the mineralocorticoid receptor (MR) by cortisol, causing sodium retention, hypokalemia, and salt-dependent hypertension.
Mutations in the 11beta-HSD2 gene cause a rare form of inherited hypertension, the syndrome of apparent mineralocorticoid excess (AME), in which cortisol activates the MR resulting in severe hypertension and hypokalemia.
The data provided in this study seems to give credit to the hypothesis of the participation of MR gene in the development of HTN, although further studies are necessary to better assess its real impact.
GR haploinsufficiency leads to hypertension due to illicit occupation of renal mineralocorticoid receptor by elevated cortisol rather than to increased mineralocorticoid production reported in primary glucocorticoid resistance.
In the MS population, the C/G and G/G genotypes of single-nucleotide polymorphism rs1040288 (NR3C2) and A/G and G/G of rs11099680 (NR3C2) were associated with uncontrolled AHT (odds ratio (OR)=2.94 (1.34-6.47) and OR=2.54 (1.09-5.93), respectively).
We discuss the possible underlying mechanisms for the delayed manifestation of hypertension and electrolyte disturbances in AME, propose an additional explanation for the stroke in this patient, and advise treatment with a mineralocorticoid receptor antagonist to reduce stroke risk in patients with AME.