Ghina Bouabout1, Estelle Ayme-Dietrich2, Hugues Jacob1, Marie-France Champy1, Marie-Christine Birling1, Guillaume Pavlovic1, Lola Madeira2, Lahcen El Fertak1, Benoit Petit-Demoulière1, Tania Sorg1, Yann Herault1, John Mudgett3, Laurent Monassier4. 1. Institut clinique de la Souris, institut de génétique et de biologie moléculaire et cellulaire, université de Strasbourg, Illkirch, France. 2. Laboratoire de neurobiologie et pharmacologie cardiovasculaire, faculté de médecine, fédération de médecine translationnelle, université, CHU de Strasbourg, 11, rue Humann, 67085 Strasbourg cedex, France. 3. Merck research laboratories, Kenilworth, NJ, USA. 4. Institut clinique de la Souris, institut de génétique et de biologie moléculaire et cellulaire, université de Strasbourg, Illkirch, France; Laboratoire de neurobiologie et pharmacologie cardiovasculaire, faculté de médecine, fédération de médecine translationnelle, université, CHU de Strasbourg, 11, rue Humann, 67085 Strasbourg cedex, France. Electronic address: laurent.monassier@unistra.fr.
Abstract
BACKGROUND: Metabolic syndrome is a combination of symptoms including obesity, dyslipidaemia, glucose intolerance and hypertension. Oxidative stress appears to be a pathophysiological factor that links these signs and encourages progression towards heart failure and diabetes. Nox4 is a hydrogen peroxide nicotinamide adenine dinucleotide phosphate (NADPH) oxidase isoform - found in various cardiovascular cells and tissues, but also in tissues such as the liver - which is involved in glucose and lipid homeostasis. AIMS: To test whether inhibition of the Nox4 enzyme could improve blood pressure and metabolic parameters in mice receiving either angiotensin II or a high-fat diet. METHODS: Systolic and diastolic arterial pressures, pulse rate and heart rate were obtained in 24 male mice (12 wild-type [WT] and 12 Nox4-/-) before and during 14 days of angiotensin II infusion. After angiotensin II infusion, cardiac histological remodeling was assessed. Weight and biochemical parameters were measured in 18 male and 18 female mice (nine WT and nine Nox4-/- per gender) after 10 weeks on a standard chow diet, then 15 weeks on a high-fat diet. Glucose tolerance and insulin sensitivity were tested at age 25 weeks. RESULTS: Knock-out animals did not demonstrate a baseline blood pressure phenotype, but blocking Nox4 protected against angiotensin II-mediated arterial and pulse pressure increases. No protection against angiotensin II-induced cardiac fibrosis was observed. From a metabolic point of view, Nox4 inhibition reduced plasma triglycerides in male and female mice under a chow diet. However, Nox4 deletion did not affect the metabolic profile under a high-fat diet in males or females, but increased glucose intolerance in females. CONCLUSION: Our data identify Nox4 as a key source of radical oxygen species involved in hypertension and some metabolic problems.
BACKGROUND:Metabolic syndrome is a combination of symptoms including obesity, dyslipidaemia, glucose intolerance and hypertension. Oxidative stress appears to be a pathophysiological factor that links these signs and encourages progression towards heart failure and diabetes. Nox4 is a hydrogen peroxidenicotinamide adenine dinucleotide phosphate (NADPH) oxidase isoform - found in various cardiovascular cells and tissues, but also in tissues such as the liver - which is involved in glucose and lipid homeostasis. AIMS: To test whether inhibition of the Nox4 enzyme could improve blood pressure and metabolic parameters in mice receiving either angiotensin II or a high-fat diet. METHODS: Systolic and diastolic arterial pressures, pulse rate and heart rate were obtained in 24 male mice (12 wild-type [WT] and 12 Nox4-/-) before and during 14 days of angiotensin II infusion. After angiotensin II infusion, cardiac histological remodeling was assessed. Weight and biochemical parameters were measured in 18 male and 18 female mice (nine WT and nine Nox4-/- per gender) after 10 weeks on a standard chow diet, then 15 weeks on a high-fat diet. Glucose tolerance and insulin sensitivity were tested at age 25 weeks. RESULTS: Knock-out animals did not demonstrate a baseline blood pressure phenotype, but blocking Nox4 protected against angiotensin II-mediated arterial and pulse pressure increases. No protection against angiotensin II-induced cardiac fibrosis was observed. From a metabolic point of view, Nox4 inhibition reduced plasma triglycerides in male and female mice under a chow diet. However, Nox4 deletion did not affect the metabolic profile under a high-fat diet in males or females, but increased glucose intolerance in females. CONCLUSION: Our data identify Nox4 as a key source of radical oxygen species involved in hypertension and some metabolic problems.
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