Local Angiotensin II Generation in the Rat Heart : Role of Renin Uptake

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Circulation Research. 1998;82:13-20

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(Circulation Research. 1998;82:13-20.)
© 1998 American Heart Association, Inc.

Original Contributions

Local Angiotensin II Generation in the Rat Heart

Role of Renin Uptake

Dominik N. Müller, Walter Fischli, Jean-Paul Clozel, Karl F. Hilgers, Jürgen Bohlender, Joël Ménard, Andreas Busjahn, Detlev Ganten, , Friedrich C. Luft

From the Franz Volhard Clinic and the Max Delbrück Center for Molecular Medicine (MDC), Virchow Klinikum, Humboldt University of Berlin (Germany) (D.N.M., J.B., A.B., F.C.L.); the University of Erlangen-Nürnberg (Germany) (K.F.H.); INSERM U367, Paris, France (J.M.); and Hoffmann-LaRoche, Basel, Switzerland (W.F., J.-P.C.).

Correspondence to Friedrich C. Luft, MD, Franz Volhard Clinic, Wiltberg Strasse 50, 13122 Berlin, Germany. E-mail fcluft{at}mdc-berlin.de

Abstract—To elucidate the local effects of renin in thecoronary circulation, we examined local angiotensin (Ang) Iand II formation, as well as coronary vasoconstriction in responseto renin administration, and compared the effects with exogenousinfused Ang I. We perfused isolated hearts from rats overexpressingthe human angiotensinogen gene in a Langendorff preparationand measured the hemodynamic effects and the released products.We also investigated cardiac Ang I conversion, including thecontribution of non-angiotensin-converting enzyme–dependentAng II–generating pathways. Finally, we studied Ang Iconversion in vitro in heart homogenates. Renin and Ang I infusionboth generated Ang II. Ang II release and vasoconstriction continuedafter renin infusion was stopped, even though renin disappearedimmediately from the perfusate. In contrast, after Ang I infusion,Ang II release and coronary flow returned to basal levels. AngI conversion (Ang II/Ang I ratio) was higher after renin infusion(0.109±0.027 versus 0.026±0.003, 15 minutes, P<.02)compared with infused Ang I. Remikiren added to the renin infusionabolished Ang I and II; captopril suppressed only Ang II, whereasan AT₁ receptor blocker did not affect Ang I and II formation.All the drugs prevented renin-induced coronary flow changes.Total cardiac Ang II–forming activity was only partiallyinhibited by cilazaprilat (4.1±0.1 fmol · min^-1· mg^-1) and on a larger extent by chymostatin (2.6±0.3fmol · min^-1 · mg^-1) compared with control values(5.6±0.4 fmol · min^-1 · mg^-1). We concludethat renin can be taken up by cardiac or coronary vascular tissueand induces long-lasting local Ang II generation and vasoconstriction. Locallyformed Ang I was converted more effectively than infused AngI. Furthermore, the comparison of in vivo and in vitro Ang Iconversion suggests that in vitro assays may underestimate thefunctional contribution of angiotensin-converting enzyme to intracardiacAng II formation.

Key Words: transgenic rat • angiotensin • human renin • cardiac renin-angiotensin system • chymase-like activity

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				F. C. Luft, E. Mervaala, D. N. Muller, V. Gross, F. Schmidt, J. K. Park, C. Schmitz, A. Lippoldt, V. Breu, R. Dechend, et al. Hypertension-Induced End-Organ Damage : A New Transgenic Approach to an Old Problem Hypertension, January 1, 1999; 33(1): 212 - 218. [Abstract] [Full Text] [PDF]

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