Abstract

Dahl salt-sensitive (S) and salt-resistant (R) rats are widely used to study genetic determinants of salt-sensitive hypertension. Differences in blood pressure under a high sodium diet in these two strains may be due to differences in the synthesis of 18-OH-11-deoxycorticosterone (18-OH DOC). This difference in 18-OH-DOC synthesis is due to mutations in the Dahl R rat's gene for P450c11 beta (11 beta-hydroxylase), an adrenal enzyme involved in the synthesis of both corticosterone and 18-OH DOC from 11-deoxycorticosterone. Aldosterone/renin ratios in plasma and in the adrenals are greater in Dahl S than R rats, suggesting an altered physiologic relationship between the renin-angiotensin and aldosterone systems between these strains. We demonstrate that the mRNA for P450c11AS, (aldosterone synthase), an enzyme required for aldosterone synthesis, is identical in the Dahl S rat and in normotensive Sprague-Dawley rats, but that P450c11AS mRNA from the Dahl R rat contains 7 mutations that result in two amino acid substitutions. These two changes result in a form of P450c11AS that has a greater apparent Vmax and lower apparent Km, resulting in an enzyme that catalyzes the conversion of 11-deoxycorticosterone to aldosterone at a greater rate in Dahl R rats than the P450c11AS in Dahl S rats or Sprague-Dawley rats. Although plasma and adrenal renin are lower in Dahl S versus R rats, the regulation of P450c11AS mRNA expression in rats fed a low and high salt diet are identical in these strains. The current findings may explain both the reduced aldosterone concentrations and increased aldosterone/renin ratios previously reported in the Dahl S versus Dahl R rat.