Angiotensin-converting enzyme-2 (ACE2) converts angiotensin II (ANG II) to angiotensin-(1-7) [ANG-(1-7)], and this enzyme may serve as a key regulatory juncture in various tissues. Although the heart expresses ACE2, the extent that the enzyme participates in the cardiac processing of ANG II and ANG-(1-7) is equivocal. Therefore, we utilized the Langendorff preparation to characterize the ACE2 pathway in isolated hearts from male normotensive Sprague-Dawley [Tg((-))] and hypertensive [mRen2]27 [Tg((+))] rats. During a 60-min recirculation period with 10 nM ANG II, the presence of ANG-(1-7) was assessed in the cardiac effluent. ANG-(1-7) generation from ANG II was similar in both the normal and hypertensive hearts [Tg((-)): 510 +/- 55 pM, n=20 vs. Tg((+)): 497 +/- 63 pM, n=14] with peak levels occurring at 30 min after administration of the peptide. ACE2 inhibition (MLN-4760, 1 microM) significantly reduced ANG-(1-7) production by 83% (57 +/- 19 pM, P<0.01, n=7) in the Tg((+)) rats, whereas the inhibitor had no significant effect in the Tg((-)) rats (285 +/- 53 pM, P>0.05, n=10). ACE2 activity was found in the effluent of perfused Tg((-)) and Tg((+)) hearts, and it was highly associated with ACE2 protein expression (r=0.78). This study is the first demonstration for a direct role of ACE2 in the metabolism of cardiac ANG II in the hypertrophic heart of hypertensive rats. We conclude that predominant expression of cardiac ACE2 activity in the Tg((+)) may be a compensatory response to the extensive cardiac remodeling in this strain.