The renoprotective effect of l-carnitine in hypertensive rats is mediated by modulation of oxidative stress-related gene expression

Purpose Arterial hypertension is associated with a high production of reactive oxygen species and a decrease in the antioxidant defense systems. Based on the lack of toxicity of l -carnitine (LC) and previous studies reporting beneficial effects of this compound in experimental models of hypertensio...

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Published in:European journal of nutrition 2013-09, Vol.52 (6), p.1649-1659
Main Authors: Zambrano, Sonia, Blanca, Antonio Jesús, Ruiz-Armenta, María Victoria, Miguel-Carrasco, José Luis, Revilla, Elisa, Santa-María, Consuelo, Mate, Alfonso, Vázquez, Carmen María
Format: Article
Language:English
Subjects:
Animals
Antioxidants - pharmacology
Carnitine - pharmacology
Chemistry
Chemistry and Materials Science
Down-Regulation
Gene Expression Regulation
Glutathione Peroxidase - metabolism
Glutathione Reductase - metabolism
Hypertension - drug therapy
Kidney - drug effects
Kidney - pathology
Lipid Peroxidation - drug effects
Male
Medicin och hälsovetenskap
NADPH Oxidases - genetics
NADPH Oxidases - metabolism
NF-E2-Related Factor 2 - genetics
NF-E2-Related Factor 2 - metabolism
NF-kappa B - metabolism
NG-Nitroarginine Methyl Ester - adverse effects
Nitric Oxide Synthase Type III - genetics
Nitric Oxide Synthase Type III - metabolism
Nutrition
Original Contribution
Oxidative Stress - drug effects
PPAR alpha - genetics
PPAR alpha - metabolism
Rats
Rats, Wistar
Renin-Angiotensin System
Superoxide Dismutase - metabolism
Superoxides - metabolism
Up-Regulation
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Summary:Purpose Arterial hypertension is associated with a high production of reactive oxygen species and a decrease in the antioxidant defense systems. Based on the lack of toxicity of l -carnitine (LC) and previous studies reporting beneficial effects of this compound in experimental models of hypertension, the aim of this work was to test the hypothesis that LC might protect the kidney against hypertension-induced oxidative damage, as well as to investigate the mechanisms involved in this effect. To this end, specific activities and protein/mRNA expression of the antioxidant enzymes (glutathione peroxidase, glutathione reductase, and superoxide dismutase), and those of NADPH oxidase (the main responsible for superoxide anion production in renal tissue) have been measured in renal cortex homogenates from NG-nitro- l -arginine methyl ester (L-NAME)-treated rats and control normotensive rats. In addition, components of the renin–angiotensin system (RAS) and redox-sensitive transcription factors (NF-κB, Nrf2, and PPARα) have also been evaluated. Methods Male Wistar rats aged 6–8 weeks were divided into four groups of six animals each: (1) control, normotensive Wistar rats (with free access to tap water); (2) Wistar rats subjected to treatment with 25 mg of L-NAME/kg body weight/day dissolved in the drinking water, in order to develop L-NAME-induced hypertension; (3) Wistar rats subjected to treatment with 400 mg of LC/kg body weight/day (also dissolved in the drinking water); and (4) L-NAME-treated rats subjected to simultaneous treatment with LC at the indicated doses. Results The beneficial effect of LC supplementation on oxidative damage in the renal cortex of hypertensive rats reversed hypertension-associated renal function damage and produced an upregulation of both antioxidant enzymes and eNOS, and with a downregulation of both NADPH oxidase and RAS components. LC improves the oxidative stress response through a specific modulation of NF-κB, Nrf2, and PPARα transcription factors. Thus, the low production of superoxide anions, subsequent to NADPH oxidase inhibition, might act by increasing the expression of Nrf2 and PPARα and by decreasing that of NF-κB, which, in turn, would enhance the antioxidant defense systems. Conclusions Our results might support the use of LC to prevent hypertension-induced renal damage.
ISSN:1436-6207
1436-6215
1436-6215
DOI:10.1007/s00394-012-0470-x