Oxidative Stress in a Rat Model of Obesity-Induced Hypertension

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Hypertension. 2001;37:554-560

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(Hypertension. 2001;37:554.)
© 2001 American Heart Association, Inc.

Scientific Contributions

Oxidative Stress in a Rat Model of Obesity-Induced Hypertension

Anca D. Dobrian; Michael J. Davies; Suzanne D. Schriver; Thomas J. Lauterio; Russell L. Prewitt

From the Department of Physiological Sciences, Eastern Virginia Medical School, Norfolk.

Correspondence to Anca Dobrian, PhD, Eastern Virginia Medical School, Department of Physiological Sciences, 700 W Olney Rd, Norfolk, VA 23507. E-mail dobriaad{at}evms.edu

The mechanisms underlying the development of hypertension inobesity are not yet fully understood. We recently reportedthe development of hypertension in a rat model of diet-inducedobesity. When Sprague-Dawley rats (n=60) are fed a moderatelyhigh fat diet (32 kcal% fat) for 10 to 16 weeks, approximatelyhalf of them develop obesity (obesity-prone [OP] group) andmild hypertension (158±3.4 mm Hg systolic pressure),whereas the other half (obesity-resistant [OR] group) maintainsa body weight equivalent to that of a low fat control groupand is normotensive (135.8±3.8 mm Hg). We examined thepotential role of oxidative stress in the development of hypertensionin this model. Lipid peroxides measured as thiobarbituric acid–reactivesubstances showed a significant increase in the LDL fractionof OP rats (2.8±0.32 nmol malondialdehyde/mg protein)compared with OR and control rats (0.9±0.3 nmol malondialdehyde/mgprotein). Also, aortic and kidney thiobarbituric acid–reactivesubstances showed a significant (3- and 5- fold) increase inOP rats after 16 weeks of diet. In addition, superoxide generationby aortic rings, measured by lucigenin luminescence, showeda 2-fold increase in the OP group compared with both the ORand control groups. In addition, free isoprostane excretion and nitrotyrosine in the kidney showed an increase in OP ratsonly. The urine and plasma nitrate/nitrite measured by theLDH method showed a 1.8-fold decrease in OP rats compared withOR rats. However, endothelial NO synthase expression in thekidney cortex and medulla assessed by reverse transcriptase–polymerasechain reaction showed a strong increase in the OP rats versusOR and control rats (endothelial NO synthase/ß-actinratio 1.3±0.04 in OP rats versus 0.44±0.02 inOR rats), suggesting a possible shift toward superoxide productionby the enzyme. Collectively, the data show a decreased NO bioavailabilityin OP animals that is due in part to the increased oxidativestress.

Key Words: diet • nitric oxide • obesity • oxidative stress • kidney • lipids

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