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  • Title: Molecular genetics of the renin-angiotensin-aldosterone system in human hypertension.
    Author: Corvol P, Soubrier F, Jeunemaitre X.
    Journal: Pathol Biol (Paris); 1997 Mar; 45(3):229-39. PubMed ID: 9296068.
    Abstract:
    Blood pressure is a quantitative trait that varies along a continuum in the general population and is regulated via multiple mechanisms involving many genetic loci and environmental factors. Family studies and twin studies suggest that about 30% of blood pressure variance is attributable to genetic factors and 50% to environmental factors. Two forms of hypertension transmitted on an autosomal recessive basis have been identified: one is glucocorticoid-suppressible hyperaldosteronism (GSH) and the other is Liddle's syndrome (amiloride-suppressible hyperactivity of the epithelial sodium channel). The molecular basis for these two forms of severe hypertension has recently been elucidated. GSH is due to expression of a chimeric gene produced by fusion of the 11 beta-hydroxylase promoter with the region encoding the enzyme aldosterone-synthase. Expression of this chimeric gene occurs in the zona fasciculata of the adrenal cortex, under the control of ACTH, and can be suppressed by administration of glucocorticoids. Liddle's syndrome is due to mutations in the beta or gamma chain of the epithelial sodium channel in distal renal tubule cells. The hyperactivity of this channel caused by the mutations results in increased sodium reabsorption, which can be suppressed by administration of amiloride or triamterene. Apart from these rare genetic defects, a number of susceptibility genes can increase the risk of hypertension in a given environment. Their presence is neither necessary nor sufficient to cause hypertension. The best documented example is the angiotensinogen gene. Angiotensiongen is the substrate of renin, and the renin-angiotensinogen reaction is the first and limiting step in the pathway that leads to production of angiotensin II, a peptide with important effects on blood pressure control and the metabolism of water and sodium. Several studies have demonstrated a link between the angiotensinogen gene and familial hypertension or hypertension of pregnancy. The M235T variant of angiotensinogen is more prevalent among hypertensive than among normotensive subjects in several Caucasian and Japanese populations. The M235T variant is also associated with plasma angiotensinogen elevation, which is potentially responsible for increased production of angiotensin II. In other terms, relationships exist between the angiotensinogen genotype, the intermediate phenotype (i.e., plasma angiotensinogen elevation), and the distal phenomenon (i.e., blood pressure elevation). DNA libraries for the study of hypertension have been set up, and many informative genetic markers distributed along the genome have been identified. Using position cloning techniques, these markers could be used in the search for genetic links between arterial hypertension and a chromosomal locus.
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