Acute inhibition of the hypothalamic paraventricular nucleus decreases renal sympathetic nerve activity and arterial blood pressure in water-deprived rats

doi:10.1152/ajpregu.00494.2003

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Acute inhibition of the hypothalamic paraventricular nucleus decreases renal sympathetic nerve activity and arterial blood pressure in water-deprived rats

Sean D. Stocker, Kimberly J. Keith, and Glenn M. Toney

Department of Physiology, University of Texas Health Science Center at San Antonio, San Antonio, Texas 78239

Submitted 27 August 2003 ; accepted in final form 7 December 2003

The present study was performed to determine whether sympatheticoutflow and arterial blood pressure in water-deprived rats aredependent on the ongoing neuronal activity of the hypothalamicparaventricular nucleus (PVN). Renal sympathetic nerve activity(RSNA), mean arterial blood pressure (MAP), and heart rate wererecorded in urethane- ${alpha}$ -chloralose-anesthetized rats that weredeprived of water but not food for 48 h before experiments.Acute inhibition of the PVN by bilateral microinjection of theGABA_A agonist muscimol (100 pmol/side) significantly decreasedRSNA in water-deprived rats (-26.7 ± 4.7%, n = 7) butwas without effect in control rats (1.3 ± 6.3%, n = 7).Similarly, injection of muscimol produced a greater decreasein MAP in water-deprived rats than in control rats (-46 ±3 vs. -16 ± 3 mmHg, respectively), although baselineMAP was not different between groups (105 ± 4 vs. 107± 4 mmHg, respectively). Neither bilateral microinjectionof isotonic saline vehicle (100 nl/side) into the PVN nor muscimol(100 pmol/side) outside the PVN altered RSNA or MAP in eithergroup. In addition, ganglionic blockade with hexamethonium (30mg/kg iv) significantly decreased MAP in both groups; however,the decrease in MAP was significantly greater in water-deprivedrats than in control rats (62 ± 2 vs. 48 ± 2 mmHg,respectively). Collectively, these findings suggest that sympatheticoutflow contributes more to the maintenance of blood pressurein the water-deprived rat, and this depends, at least partly,on the ongoing activity of PVN neurons.

dehydration; hypovolemia; hyperosmolality; angiotensin II; GABA_A receptor

Address for reprint requests and other correspondence: S. D. Stocker, Dept. of Physiology-MC 7756, Univ. of Texas HSC at San Antonio, 7703 Floyd Curl Dr., San Antonio, TX 78229 (E-mail: stocker{at}uthscsa.edu).

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