In 18 hypertensive patients receiving a constant (100 mEq/day) sodium diet, treatment with clonidine (0.3 mg/day for 5 days) decreased blood pressure in 11 patients with high and normal renin levels and 7 with low renin levels. The high and normal renin group had early and rapid reductions in blood pressure and plasma renin activity. In contrast, the low renin group had a more gradual hypotensive response and only a small absolute decrease in plasma renin. For all patients, pretreatment renin levels were related to the initial decrease in blood pressure but not to the reductions measured after 5 days. Thus, two mechanisms of action of clonidine are possible, one related to acute inhibition of the renin-angiotensin system in patients with high and normal renin levels and another that is independent of renin mechanisms and occurs in all hypertensive patients. In six additional patients with high renin levels induced by prior sodium depletion (10 mEq/day sodium diet), clonidine did not reduce blood pressure or renin, thus indicating that the suppressive action of this agent on renin pressor mechanisms occurs only in patients whose elevated renin levels are intrinsic to hypertension and unrelated to sodium depletion. Of the 18 patients receiving a normal sodium diet, 13 were classified as responding to treatment (decrease in both systolic and diastolic pressures of at least 10%). The five nonresponders had greater weight gain and higher values for aldosterone excretion. For all patients, there was a significant correlation between decrements in blood pressure and in aldosterone, suggesting that the countervailing effects of fluid accumulation on blood pressure in nonresponding patients resulted from a failure of aldosterone to be suppressed. Changes in aldosterone, in turn, correlated significantly with changes in renin. Thus, the antirenin effect of clonidine enhances its antihypertensive action not only by acutely ablating renin-angiotensin pressor mechanisms, but also by inhibiting aldosterone production and thereby minimizing longer-term reactive volume retention during treatment.