Abstract-Overactivity of the brain renin-angiotensin system has been implicated in the development and maintenance of hypertension. We reported previously that angiotensin II is converted to angiotensin III by aminopeptidase A in the mouse brain. We then used specific and selective aminopeptidase A inhibitors to show that angiotensin III is one of the main effector peptides of the brain renin-angiotensin system, exerting tonic stimulatory control over blood pressure in hypertensive rats. Aminopeptidase A, the enzyme generating brain angiotensin III, thus represents a potential candidate central nervous system target for the treatment of hypertension. Given this possible clinical use of aminopeptidase A inhibitors, it was, therefore, important to investigate their pharmacological activity after oral administration. We investigated RB150, a dimer of the selective aminopeptidase A inhibitor, EC33, generated by creating a disulfide bond. This chemical modification allows prodrug to cross the blood-brain barrier when administered by systemic route. Oral administration of RB150 in conscious DOCA-salt rats inhibited brain aminopeptidase A activity, resulting in values similar to those obtained with the brains of normotensive rats, demonstrating the central bioavailability of RB150. Oral RB150 treatment resulted in a marked dose-dependent reduction in blood pressure in DOCA-salt but not in normotensive rats, with an ED 50 in the 1-mg/kg range, achieved in Ͻ2 hours and lasting for several hours. This treatment also significantly decreased plasma arginine-vasopressin levels and increased diuresis, which may participate to the blood pressure decrease by reducing the size of fluid compartment. Thus, RB150 may be the prototype of a new class of centrally active antihypertensive agents. Key Words: aminopeptidase A inhibitors Ⅲ blood pressure Ⅲ brain renin-angiotensin system Ⅲ DOCA-salt rats Ⅲ hypertension H ypertension is a major cardiovascular risk factor, affecting Ϸ20% of the adult population, of which 95% have essential hypertension. Blockers of the systemic renin-angiotensin system (RAS), angiotensin (Ang) I-converting enzyme (ACE; EC 3.4.15.11) inhibitors or Ang II receptor type 1 (AT 1 ) antagonists, have since been shown to be efficient and safe for treating hypertension. 1 However, they may cause secondary effects, such as coughing, deterioration of renal function in cases of underlying renal artery stenosis, and, more rarely, angioedema. [2][3][4][5][6][7] In addition, these agents are not very effective in some patients, particularly African Americans, in whom high blood pressure (BP) is associated with low renin levels and a response to salt depletion. 8,9 The development of new classes of antihypertensive agents with different mechanisms of action, therefore, remains an important goal. In this way, because a brain RAS hyperactivity has been implicated in the development and maintenance of hypertension, 10 -13 its components could constitute interesting targets. Among the bioactive peptides of the brain RAS, Ang I...
