1 We tested the effects on systemic haemodynamics and renal function, of inhibition of endopeptidase (EP) 24.15 (E.C. 3.4.24.15), in conscious uninephrectomized rabbits in which the activities of angiotensin converting enzyme (ACE, E.C. 3.4.15.1) and neutral endopeptidase (EP 24.11, E.C. 3.4.24.11) were already inhibited. To test the role of bradykinin B2-receptors in mediating the effects following inhibition of these enzymes, the antagonist Hoe 140 was used. 2 Hoe 140 (0.1 mg kg-', i.v.) did not affect resting mean arterial pressure or heart rate, but antagonized the depressor effect of right atrial administration of bradykinin. The dose-response curve for bradykinin was shifted more than 1000 fold to the right for more than 4 h. Hoe 140 approximately doubled resting urine flow and increased fractional Na+ excretion from 4.2 to 6.0%; consistent with the hypothesis that it exerts a partial agonist effect on the kidney.3 Combined inhibition of ACE (captopril; 0.25 mg kg-' plus 0.2 mg kg-'h-') and EP 24.11 (SCH 39370; 3 mg kg-' plus 3 mg kg-'h-') was followed by a sustained reduction in arterial pressure (-6+ 2 mmHg) and increase in heart rate (35+7 beats min-'). There was a small increase in renal blood flow (by 6.5+3.2% relative to vehicle-treatment) without a change in glomerular filtration rate, and about a 150% increase in Na+ excretion. Hoe 140 (0.1 mg kg-', i.v.) pretreatment did not influence the renal effects of captopril and SCH 39370, although it did appear to blunt their hypotensive and tachycardic effects.4 When EP 24.15 was inhibited with N-[l-(R,S)-carboxy-3-phenylpropyl]-Ala-Ala-Tyr-p-aminobenzoate (cFP-AAY-pAB; 5 mg kg-' plus 3 mg kg-'h-', i.v.) in rabbits pretreated with captopril and SCH 39370, no changes in systemic haemodynamics or renal function were observed. 5 We concluded that in conscious uninephrectomized rabbits, EP 24.15 does not play a major role in modulating renal function, at least under conditions where ACE and EP 24.11 are already inhibited. In contrast, ACE and/or EP 24.11 do modulate renal function in this model, but their influences are mediated chiefly through metabolism of peptides other than bradykinin.