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Johannes Müller Institute for Physiology,
Campus Charité Mitte, Humboldt University of
Berlin, Berlin, Germany.
Experimentelle Anaesthesie, Campus Virchow Klinikum, Humboldt University
of Berlin, Berlin, Germany.
Correspondence to Dr. Erdmann Seeliger, Johannes-Müller-Institut für Physiologie, Campus Charité Mitte, Humboldt Universität zu Berlin, Tucholskystrasse 2, D-10117 Berlin, Germany. Phone: +49-30-2802-6631; Fax: +49-30-2802-6662; E-mail: Erdmann.Seeliger{at}charite.de
Abstract. Nitric oxide modulates renal hemodynamics and salt and
water handling. Studies on the latter have provided conflicting results,
however. Electrolyte and water balances were therefore studied in 28 beagles
for 4 d, to determine the various effects of nitric oxide synthase (NOS)
inhibition on renal function. The dogs were chronically equipped with aortic
occluders to reduce renal perfusion pressure (RPP), bladder catheters, and
catheters for measurements of RPP and mean arterial BP. A swivel system
allowed free movement within the kennels. In a first set of experiments, a
nonpressor dose of L-N
-nitroarginine (LN) (3 µg/min per kg
body wt) was administered, to prevent increases in mean arterial BP and thus
pressure effects on renin release and natriuresis. Remarkably, the nonpressor
dose of LN caused a negative sodium balance. The natriuretic effect may
involve reduced plasma renin activity, reduced aldosterone concentrations, and
increased atrial natriuretic peptide concentrations. Changes in aldosterone
levels, however, were the only parameters to parallel the time course of
sodium excretion. In a second set of experiments, a sodium-retaining challenge
was elicited by reduction of RPP. Dogs without NOS inhibition escaped sodium
retention during RPP reduction after 2 d ("pressure escape"). LN
neither ameliorated nor aggravated the sodium-retaining effect of reduced RPP,
nor did it compromise the accomplishment of pressure escape. In conclusion,
inhibition of NOS with a low dose of LN results in a reduction of total-body
sodium. This effect mainly relies on reduced aldosterone concentrations.
Furthermore, LN does not change the regulatory response to long-term RPP
reduction.
This article has been cited by other articles:
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  E. Seeliger, M. Ladwig, and H. W. Reinhardt Are large amounts of sodium stored in an osmotically inactive form during sodium retention? Balance studies in freely moving dogs Am J Physiol Regulatory Integrative Comp Physiol, May 1, 2006; 290(5): R1429 - R1435. [Abstract] [Full Text] [PDF]
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C. Hohne, W. Boemke, N. Schleyer, R. C. Francis, M. O. Krebs, and G. Kaczmarczyk Low sodium intake does not impair renal compensation of hypoxia-induced respiratory alkalosis J Appl Physiol, May 1, 2002; 92(5): 2097 - 2104. [Abstract] [Full Text] [PDF]
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