Increasing oxidative stress with molsidomine increases blood pressure in genetically hypertensive rats but not normotensive controls

doi:10.1152/ajpregu.00526.2004

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Increasing oxidative stress with molsidomine increases blood pressure in genetically hypertensive rats but not normotensive controls

Lourdes A. Fortepiani and Jane F. Reckelhoff

Department of Physiology and Biophysics and Center for Excellence in Cardiovascular-Renal Research, University of Mississippi Medical Center, Jackson, Mississippi

Submitted 4 August 2004 ; accepted in final form 18 May 2005

Spontaneously hypertensive rats (SHR) have a higher level ofoxidative stress and exhibit a greater depressor response toa superoxide scavenger, tempol, than normotensive Wistar-Kyotorats (WKY). This study determined whether an increase in oxidativestress with a superoxide/NO donor, molsidomine, would amplifythe blood pressure in SHR. Male SHR and WKY were given molsidomine(30 mg·kg^–1·day^–1) or vehicle (0.01%ethanol) for 1 wk, and blood pressure, renal hemodynamics, nitrateand nitrite excretion (NOx), renal superoxide production, andexpression of renal antioxidant enzymes, Mn- and Cu,Zn-SOD,catalase, and glutathione peroxidase (GPx), were measured. Renalsuperoxide and NOx were higher in control SHR than in WKY. Molsidomineincreased superoxide by $~$ 35% and NOx by 250% in both SHR andWKY. Mean arterial blood pressure (MAP) was also higher in controlSHR than WKY. Molsidomine increased MAP by 14% and caused renalvasoconstriction in SHR but reduced MAP by 16%, with no effecton renal hemodynamics, in WKY. Renal expression of Mn- and Cu,Zn-SODwas not different between SHR and WKY, but expression of catalaseand GPx were $~$ 30% lower in kidney of SHR than WKY. The levelsof Mn- and Cu,Zn-SOD were not increased with molsidomine ineither WKY or SHR. Renal catalase and GPx expression was increasedby 300–400% with molsidomine in WKY, but there was noeffect in SHR. Increasing oxidative stress elevated blood pressurefurther in SHR but not WKY. WKY are likely protected becauseof higher bioavailable levels of NO and the ability to upregulatecatalase and GPx.

sexual dimorphism; glomerular filtration rate; catalase; glutathione peroxidase

Address for reprint requests and other correspondence: J. F. Reckelhoff, Dept. of Physiology and Biophysics, Univ. of Mississippi Medical Center, 2500 North State St., Jackson, MS 39216-4505 (e-mail: jreckelhoff{at}physiology.umsmed.edu)

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