AIM OF STUDY: We have assessed the influence of water restriction stress on the nitric oxide (NO) synthase in heart and aorta tissues in young 2-month-old and middle-aged 12-month-old rats. METHODS: Animals were divided into control and 24- and 72-h water-deprived groups. We evaluated systolic blood pressure (SBP), biochemical parameters, nitrate and nitrite urinary excretion (UNOx), NADPH-diaphorase activity, and protein levels of NOS in the right atria, left ventricle, and thoracic aorta tissues. RESULTS: Water restriction during 72 h increased SBP (16%) in 2-month-old rats but decreased it after 24 and 72 h (9 and 15%, respectively) in 12-month-old rats. Atria, aorta endothelium, and smooth muscle NOS activity increased (32, 63, and 88%, respectively) only after 72 h of water restriction in 2-month-old rats. It also increased not only after 72 h but also after 24 h in atria (27 and 18%, respectively) and in ventricle (39 and 67%, respectively) in 12-month-old rats. Meanwhile, in this group's aorta smooth muscle, the enzyme activity decreased (16 and 7%, respectively). A major difference seen between ages was the changes in UNOx excretion, which decreased in the younger in 24 and 72 h (47 and 81%, respectively) and increased in the middle-aged rats (193 and 389%, respectively). Water restriction did not change cardiovascular endothelial and neuronal NOS protein levels in any group. CONCLUSION: NO pathways could contribute to the development of age-related cardiovascular adaptation to volume depletion induced by water restriction.
AIM OF STUDY: We have assessed the influence of water restriction stress on the nitric oxide (NO) synthase in heart and aorta tissues in young 2-month-old and middle-aged 12-month-old rats. METHODS: Animals were divided into control and 24- and 72-h water-deprived groups. We evaluated systolic blood pressure (SBP), biochemical parameters, nitrate and nitrite urinary excretion (UNOx), NADPH-diaphorase activity, and protein levels of NOS in the right atria, left ventricle, and thoracic aorta tissues. RESULTS:Water restriction during 72 h increased SBP (16%) in 2-month-old rats but decreased it after 24 and 72 h (9 and 15%, respectively) in 12-month-old rats. Atria, aorta endothelium, and smooth muscle NOS activity increased (32, 63, and 88%, respectively) only after 72 h of water restriction in 2-month-old rats. It also increased not only after 72 h but also after 24 h in atria (27 and 18%, respectively) and in ventricle (39 and 67%, respectively) in 12-month-old rats. Meanwhile, in this group's aorta smooth muscle, the enzyme activity decreased (16 and 7%, respectively). A major difference seen between ages was the changes in UNOx excretion, which decreased in the younger in 24 and 72 h (47 and 81%, respectively) and increased in the middle-aged rats (193 and 389%, respectively). Water restriction did not change cardiovascular endothelial and neuronal NOS protein levels in any group. CONCLUSION: NO pathways could contribute to the development of age-related cardiovascular adaptation to volume depletion induced by water restriction.
Authors: Ana M Balaszczuk; Noelia D Arreche; Myriam Mc Laughlin; Cristina Arranz; Andrea L Fellet Journal: Vascul Pharmacol Date: 2006-05-11 Impact factor: 5.773
Authors: Vanina A Netti; Mariana C Vatrella; Melina F Chamorro; María I Rosón; Elsa Zotta; Andrea L Fellet; Ana M Balaszczuk Journal: Eur J Nutr Date: 2013-04-27 Impact factor: 5.614
Authors: Vanina A Netti; Agustina N Iovane; Mariana C Vatrella; Natalia D Magnani; Pablo A Evelson; Elsa Zotta; Andrea L Fellet; Ana María Balaszczuk Journal: Eur J Nutr Date: 2014-12-18 Impact factor: 5.614