Angiotensin II Enhances Baroreflex Control of Sympathetic Outflow in Heart Failure

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Hypertension. 1997;29:564-569

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Heart Failure

Angiotensin II Enhances Baroreflex Control of Sympathetic Outflow in Heart Failure

Hiroshi Murakami; Jun-Li Liu; Irving H. Zucker

the Department of Physiology and Biophysics, University of Nebraska College of Medicine, Omaha.

Correspondence to Irving H. Zucker, PhD, Department of Physiology and Biophysics, University of Nebraska College of Medicine, 600 S 42nd St, Omaha, NE 68198-4575. E-mail izucker@mail.unmc.edu

Enhanced sympathetic outflow is seen in both patients with congestiveheart failure and animals with experimental heart failure. Ina previous study, we demonstrated that the baroreflex controlof heart rate was impaired in conscious rabbits with pacing-inducedheart failure and that this impairment was partially restoredby blockade of angiotensin II type 1 (AT₁) receptors. In thepresent study, we determined the interaction between the renin-angiotensinsystem and baroreflex control of renal sympathetic nerve activityin normal conscious rabbits and conscious rabbits with pacing-inducedheart failure before and after AT₁ receptor blockade. Heartfailure was induced by rapid ventricular pacing at a rate of360 to 380 beats per minute for an average of 16.7±0.6days. To generate baroreflex curves, we altered arterial pressureby administering phenylephrine and sodium nitroprusside. A sigmoidallogistic function was fit to renal sympathetic nerve activity–meanarterial pressure relationships for analysis of several componentsof baroreflex function. AT₁ receptors were blocked by intravenousadministration of the specific antagonist L-158,809. In normalrabbits, there was no significant difference in any parameterof baroreflex function before and after blockade of AT₁ receptors.In contrast, blockade of AT₁ receptors enhanced baroreflex sensitivityin heart failure rabbits. The maximal gain increased to 5.0±0.7%renal sympathetic nerve activity/mm Hg from 2.6±0.3 (P<.05).Although L-158,809 had no effect on baseline renal sympatheticnerve activity in normal rabbits, analysis of the data in theheart failure rabbits indicated that baseline renal sympatheticnerve activity was reduced from 33±5% to 17±4%after L-158,809 administration after adjustment for changesin arterial pressure. These data suggest that angiotensin IIplays a role in baroreflex impairment in this model of heartfailure and may be in part responsible for the depressed baroreflexsensitivity observed in heart failure.

Key Words: sympathetic nervous system • arterial pressure • receptors, angiotensin • heart failure

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