INTRODUCTION: The red wine polyphenols resveratrol and quercetin are known for their vasorelaxant and antioxidant capacity, which is assumed to rely on the activation of the nitric oxide (NO)/soluble guanylyl cyclase (sGC) pathway. Vasodilators as well as antioxidants can regulate penile erection and be beneficial for the treatment of erectile dysfunction (ED). AIMS: The goal of this study was to evaluate the NO/sGC dependency of the relaxant effect of resveratrol and quercetin on mice aorta and corpora cavernosa (CC), as well as to explore their influence on oxidative stress-induced ED. METHODS: Isolated mice aorta and CC were mounted for isometric tension recordings into organ baths. Cumulative concentration-response curves were constructed for resveratrol and quercetin in the absence/presence of inhibitors of the NO/sGC pathway. In addition, in CC the effect of resveratrol and quercetin was studied on NO-mediated relaxations using acetylcholine (Ach), sodium nitroprusside (SNP), and electrical field stimulation (EFS). In certain experiments, corporal tissues were exposed to oxidative stress using palmitic acid (PA, 0.5 mM). MAIN OUTCOME MEASURES: Corporal responses to resveratrol and quercetin were measured in the presence/absence of inhibitors of different molecular pathways. The effect of resveratrol and quercetin incubation on Ach-, SNP-, or EFS-mediated responses was explored in the presence/absence of PA. RESULTS: While both polyphenols are potent vasodilators of mice aorta, only resveratrol relaxes mice CC. The relaxation response to resveratrol on aorta was diminished in sGCα1 (-/-) mice, but not on CC. The polyphenols did not influence Ach-, SNP-, or EFS-mediated relaxations as such. Resveratrol, but not quercetin, was able to significantly reverse PA-induced decrease of EFS relaxations. CONCLUSION: The red wine compound resveratrol, but not quercetin, relaxes isolated mice CC concentration-dependently through mechanisms independent of the NO/sGC pathway. Resveratrol is a more potent antioxidant than quercetin, being able to restore decreased neuronal NO responses in mice CC.
INTRODUCTION: The red wine polyphenolsresveratrol and quercetin are known for their vasorelaxant and antioxidant capacity, which is assumed to rely on the activation of the nitric oxide (NO)/soluble guanylyl cyclase (sGC) pathway. Vasodilators as well as antioxidants can regulate penile erection and be beneficial for the treatment of erectile dysfunction (ED). AIMS: The goal of this study was to evaluate the NO/sGC dependency of the relaxant effect of resveratrol and quercetin on mice aorta and corpora cavernosa (CC), as well as to explore their influence on oxidative stress-induced ED. METHODS: Isolated mice aorta and CC were mounted for isometric tension recordings into organ baths. Cumulative concentration-response curves were constructed for resveratrol and quercetin in the absence/presence of inhibitors of the NO/sGC pathway. In addition, in CC the effect of resveratrol and quercetin was studied on NO-mediated relaxations using acetylcholine (Ach), sodium nitroprusside (SNP), and electrical field stimulation (EFS). In certain experiments, corporal tissues were exposed to oxidative stress using palmitic acid (PA, 0.5 mM). MAIN OUTCOME MEASURES: Corporal responses to resveratrol and quercetin were measured in the presence/absence of inhibitors of different molecular pathways. The effect of resveratrol and quercetin incubation on Ach-, SNP-, or EFS-mediated responses was explored in the presence/absence of PA. RESULTS: While both polyphenols are potent vasodilators of mice aorta, only resveratrol relaxes mice CC. The relaxation response to resveratrol on aorta was diminished in sGCα1 (-/-) mice, but not on CC. The polyphenols did not influence Ach-, SNP-, or EFS-mediated relaxations as such. Resveratrol, but not quercetin, was able to significantly reverse PA-induced decrease of EFS relaxations. CONCLUSION: The red wine compound resveratrol, but not quercetin, relaxes isolated mice CC concentration-dependently through mechanisms independent of the NO/sGC pathway. Resveratrol is a more potent antioxidant than quercetin, being able to restore decreased neuronal NO responses in mice CC.
Authors: Didem Yilmaz-Oral; Alev Onder; Ecem Kaya-Sezginer; Cetin Volkan Oztekin; Murat Zor; Serap Gur Journal: Int J Impot Res Date: 2021-04-05 Impact factor: 2.896
Authors: Simona Destefanis; Daniela Giretto; Maria Cristina Muscolo; Alessandro Di Cerbo; Gianandrea Guidetti; Sergio Canello; Angela Giovazzino; Sara Centenaro; Giuseppe Terrazzano Journal: BMC Vet Res Date: 2016-09-22 Impact factor: 2.741