Nitric Oxide Synthase Isotype Expression in Salt-Sensitive and Salt-Resistant Dahl Rats

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Hypertension. 1999;34:552-557

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(Hypertension. 1999;34:552-557.)
© 1999 American Heart Association, Inc.

Scientific Contributions

Nitric Oxide Synthase Isotype Expression in Salt-Sensitive and Salt-Resistant Dahl Rats

Zhenmin Ni; Fariba Oveisi; Nosratola D. Vaziri

From the Division of Nephrology, Department of Medicine, University of California, Irvine.

Abstract—Previous studies have suggested that salt-sensitivehypertension in humans and experimental animals may in partbe due to dysregulation of the L-arginine/nitric oxide system.This study was conducted to determine the endothelial, inducible,and neuronal nitric oxide synthase expressions in the kidney,heart, aorta, and brain of salt-sensitive and salt-resistantDahl rats. We studied salt-sensitive and salt-resistant Dahlrats maintained on high- (8%) and regular- (0.2%) salt dietsfor 3 weeks. Blood pressure was modestly elevated in both Dahlsalt-sensitive and salt-resistant rats consuming regular dietand severely increased in sensitive but not resistant rats consumingthe high-salt diet. The Dahl salt-sensitive animals showed asignificant reduction in kidney, heart, and aorta induciblenitric oxide synthase protein abundance on the regular diet,with further reductions on the high-salt diet. In addition,the high-salt diet markedly downregulated endothelial nitricoxide synthase expression in the kidney and aorta but not inthe heart of the Dahl salt-sensitive animals. The rise in bloodpressure in the Dahl salt-sensitive rats on the high-salt dietwas accompanied by a significant elevation of brain neuronalnitric oxide synthase protein. In contrast, salt-resistant animalsshowed no change in heart, kidney, and aorta endothelial orbrain neuronal nitric oxide synthase and considerably less intensechanges in inducible isotype than that seen in the salt-sensitivegroup in response to the high-salt diet. In conclusion, thestudy revealed a marked downregulation of inducible nitric oxidesynthase in the Dahl salt-sensitive rats on the regular diet,with further reductions on the high-salt diet. Furthermore,Dahl salt-sensitive rats consuming the high-salt diet showedsignificant reductions of kidney and aorta endothelial nitricoxide synthase and an upregulation of brain neuronal nitricoxide synthase expression.

Key Words: nitric oxide • nitric oxide synthase • hypertension, sodium-dependent • sodium, dietary • blood pressure • heart • kidney

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