Sodium restriction amplifies and propranolol loading inhibits circadian rhythm of plasma renin-angiotensin and aldosterone.

Five male and 5 female clinically healthy volunteers, 17-37 years of age, gave systemic venous blood at 0600, 0800, 1200, 1800, 2000 and 0000 for RIA of (supine values) plasma renin-angiotensin (PRA) and aldosterone (PA) under 4 conditions: a. unrestricted sodium intake, no treatment; b. unrestricted sodium intake and 40 mg propranolol per os every 6 h; c. sodium restriction, no treatment; d. propranolol loading on sodium deprivation. Cosinor methods were used for data analysis. Sodium restriction amplifies the circadian rhythms of PRA and PA, whereas propranolol loading inhibits these same rhythms on a unrestricted sodium intake, but much less so under conditions of sodium deprivation. The propranolol-induced inhibition of the circadian rhythms investigated on a unrestricted sodium intake suggests that the beta-adrenergic system is an effective mechanism coordinating the circadian rhythmic functions investigated. The persistence of the rhythms in sodium-depleted subjects under pharmacological blockade of beta-adrenoreceptors is in keeping with the concept that a second mechanism of the circadian rhythms examined is located in the sodium-sensitive macula densa cells of the renal distal tubule.