Molecular genetics of essential hypertension. Susceptibility and resistance genes.

Hypertension (EH) is a multifactorial and polygenic syndrome with a high impact in public health. Recently, rare mendelian forms of hypertension such as glucocorticoid-remediable aldosteronism (GRA), apparent mineralocorticoid excess (AME) and Liddle Syndrome caused by single gene mutations have been identified in which the mechanism is an increased sodium retention. Therefore, it is tempting to speculate that the most common forms of EH may be due to diverse highly prevalent molecular Variants of susceptibility genes with low penetrance that are involved in arterial blood pressure (ABP) and electrolytic balance. Although a number of candidate genes such as NO synthases, ANP, ion transporters, adducins, LDL receptor, etc. can participate, renin-angiotensin system components are the most extensively studied. Although not associated with EH, the ACE D allele seems to confer a high risk of CHD or LVH. Angiotensinogen 235T and 174M variants are more likely associated with EH and positively correlate with clinical or ambulatory ABP in adolescents or adults, individuals who carry these angiotensinogen alleles would be at 1.4 higher risk of suffering EH than homozygotes for M235 or T174 alleles. Associations of ATI receptor variants with EH remain to be definitively defined. In conclusion, the characterization of the genetic background, although difficult at the present time, may have clear benefits in terms of defining a more rational therapy and prevention in individuals at risk. Even though this aim seems difficult to achieve since more than 150 candidate genes have been postulated as the cause of EH, with 6 to 10 SNPs in each of them, new technologies such as DNA microarrays will provide us with the opportunity to analyse the total genetic risk in each subject.