Chronic exercise preserves renal structure and hemodynamics in spontaneously hypertensive rats

Exercise training (ExT) is a recommended adjunct to many pharmaceutical antihypertensive therapies. The effects of chronic ExT on the development of hypertension-induced renal injury remain unknown. We examined whether ExT would preserve renal hemodynamics and structure in the spontaneously hyperten...

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Veröffentlicht in:	Antioxidants & redox signaling 2012-01, Vol.16 (2), p.139-152
Hauptverfasser:	Agarwal, Deepmala, Elks, Carrie M, Reed, Scott D, Mariappan, Nithya, Majid, Dewan S A, Francis, Joseph
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Sprache:	eng
Schlagworte:	Animals Antioxidants - metabolism Blotting, Western Hemodynamics Hypertension - metabolism Hypertension - pathology Hypertension - physiopathology Kidney - metabolism Kidney - pathology Kidney - physiopathology NF-kappa B - metabolism Nitric Oxide - metabolism Nitric Oxide Synthase - metabolism Original Research Communications Peroxynitrous Acid - metabolism Physical Conditioning, Animal Rats Rats, Inbred SHR Rats, Inbred WKY Reactive Oxygen Species - metabolism Superoxides - metabolism Tumor Necrosis Factor-alpha - metabolism
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creator	Agarwal, Deepmala Elks, Carrie M Reed, Scott D Mariappan, Nithya Majid, Dewan S A Francis, Joseph
description	Exercise training (ExT) is a recommended adjunct to many pharmaceutical antihypertensive therapies. The effects of chronic ExT on the development of hypertension-induced renal injury remain unknown. We examined whether ExT would preserve renal hemodynamics and structure in the spontaneously hypertensive rat (SHR), and whether these effects were mediated by improved redox status and decreased inflammation. Normotensive WKY rats and SHR underwent moderate-intensity ExT for 16 weeks. One group of SHR animals was treated with hydralazine to investigate the pressure-dependent/independent effects of ExT. Acute renal clearance experiments were performed prior to sacrifice. Tissue free radical production rates were measured by electron paramagnetic resonance; gene and protein expression were measured by real time RT-PCR and Western blot or immunofluorescence, respectively. Plasma angiotensin II levels and kidney antioxidants were assessed. Training efficacy was assessed by citrate synthase activity assay in hind-limb muscle. ExT delayed hypertension, prevented oxidative stress and inflammation, preserved antioxidant status, prevented an increase in circulating AngII levels, and preserved renal hemodynamics and structure in SHR. In addition, exercise-induced effects, at least, in part, were found to be pressure-independent. This study is the first to provide mechanistic evidence for the renoprotective benefits of ExT in a model of hypertension. Our results demonstrate that initiation of ExT in susceptible patients can delay the development of hypertension and provide renoprotection at the functional and ultrastructural level. Chronic ExT preserves renal hemodynamics and structure in SHR; these effects are partially mediated by improved redox status and decreased inflammation.
doi_str_mv	10.1089/ars.2011.3967
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The effects of chronic ExT on the development of hypertension-induced renal injury remain unknown. We examined whether ExT would preserve renal hemodynamics and structure in the spontaneously hypertensive rat (SHR), and whether these effects were mediated by improved redox status and decreased inflammation. Normotensive WKY rats and SHR underwent moderate-intensity ExT for 16 weeks. One group of SHR animals was treated with hydralazine to investigate the pressure-dependent/independent effects of ExT. Acute renal clearance experiments were performed prior to sacrifice. Tissue free radical production rates were measured by electron paramagnetic resonance; gene and protein expression were measured by real time RT-PCR and Western blot or immunofluorescence, respectively. Plasma angiotensin II levels and kidney antioxidants were assessed. Training efficacy was assessed by citrate synthase activity assay in hind-limb muscle. ExT delayed hypertension, prevented oxidative stress and inflammation, preserved antioxidant status, prevented an increase in circulating AngII levels, and preserved renal hemodynamics and structure in SHR. In addition, exercise-induced effects, at least, in part, were found to be pressure-independent. This study is the first to provide mechanistic evidence for the renoprotective benefits of ExT in a model of hypertension. Our results demonstrate that initiation of ExT in susceptible patients can delay the development of hypertension and provide renoprotection at the functional and ultrastructural level. 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The effects of chronic ExT on the development of hypertension-induced renal injury remain unknown. We examined whether ExT would preserve renal hemodynamics and structure in the spontaneously hypertensive rat (SHR), and whether these effects were mediated by improved redox status and decreased inflammation. Normotensive WKY rats and SHR underwent moderate-intensity ExT for 16 weeks. One group of SHR animals was treated with hydralazine to investigate the pressure-dependent/independent effects of ExT. Acute renal clearance experiments were performed prior to sacrifice. Tissue free radical production rates were measured by electron paramagnetic resonance; gene and protein expression were measured by real time RT-PCR and Western blot or immunofluorescence, respectively. Plasma angiotensin II levels and kidney antioxidants were assessed. Training efficacy was assessed by citrate synthase activity assay in hind-limb muscle. 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subjects	Animals Antioxidants - metabolism Blotting, Western Hemodynamics Hypertension - metabolism Hypertension - pathology Hypertension - physiopathology Kidney - metabolism Kidney - pathology Kidney - physiopathology NF-kappa B - metabolism Nitric Oxide - metabolism Nitric Oxide Synthase - metabolism Original Research Communications Peroxynitrous Acid - metabolism Physical Conditioning, Animal Rats Rats, Inbred SHR Rats, Inbred WKY Reactive Oxygen Species - metabolism Superoxides - metabolism Tumor Necrosis Factor-alpha - metabolism
title	Chronic exercise preserves renal structure and hemodynamics in spontaneously hypertensive rats
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