Renal denervation chronically lowers arterial pressure independent of dietary sodium intake in normal rats

doi:10.1152/ajpheart.01029.2002

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Renal denervation chronically lowers arterial pressure independent of dietary sodium intake in normal rats

Frédéric Jacob, Pilar Ariza, and John W. Osborn

Department of Physiology, Lillehei Heart Institute, University of Minnesota, Minneapolis, Minnesota 55455

The present study was designed to test the hypothesis that renal nerves chronically modulate arterial pressure (AP) underbasal conditions and during changes in dietary salt intake. Totest this hypothesis, continuous telemetric recording of AP inintact (sham) and renal denervated (RDNX) Sprague-Dawley ratswas performed and the effect of increasing and decreasing dietarysalt intake on AP was determined. In protocol 1, 24-h AP, sodium,and water balances were measured in RDNX (n = 11) and sham (n= 9) rats during 5 days of normal (0.4% NaCl) and 10 days of high(4.0% NaCl) salt intake, followed by a 3-day recovery period (0.4%NaCl). Protocol 2 was similar with the exception that salt intakewas decreased to 0.04% NaCl for 10 days after the 5-day periodof normal salt (0.04% NaCl) intake (RDNX; n = 6, sham; n = 5).In protocol 1, AP was lower in RDNX (91 ± 1 mmHg) compared withsham (101 ± 2 mmHg) rats during the 5-day 0.4% NaCl control period.During the 10 days of high salt intake, AP increased <5 mmHg inboth groups so that the difference between sham and RDNX ratsremained constant. In protocol 2, AP was also lower in RDNX (93± 2 mmHg) compared with sham (105 ± 4 mmHg) rats during the 5-day0.4% NaCl control period, and AP did not change in response to10 days of a low-salt diet in either group. Overall, there wereno between-group differences in sodium or water balance in eitherprotocol. We conclude that renal nerves support basal levels ofAP, irrespective of dietary sodium intake in normalrats.

sympathetic nervous system; angiotensin II; renal vascular resistance

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