BACKGROUND: In the heart, nitric oxide synthases (NOS) modulate cardiac contraction in an isoform-specific manner, which is critically dependent on their cellular and subcellular localization. Defective NO production by NOS3 (endothelial NOS [eNOS]) in the failing heart may precipitate cardiac failure, which could be reversed by overexpression of NOS3 in the myocardium. METHODS AND RESULTS: We studied the influence of NOS3 in relation to its subcellular localization on the function of cardiomyocytes isolated from transgenic mice overexpressing NOS3 under the alpha-myosin heavy chain promoter (NOS3-TG). Immunoblot analysis demonstrated moderate (5-fold) NOS3 overexpression in cardiomyocytes from NOS3-TG heterozygotes. Caveolar localization of transgenic eNOS was demonstrated by immunofluorescence, coimmunoprecipitation with caveolin-3, sucrose gradient fractionation, and immunogold staining revealed by electron microscopy. Compared with wild-type littermate, contractility of NOS3-TG cardiomyocytes analyzed by videomicroscopy revealed a lower incidence of spontaneous arrhythmic contractions (n=32, P<0.001); an attenuation of the beta-adrenergic positive inotropic response (isoproterenol, 10(-7) mol/L: 62.1+/-7.8% versus 90.8+/-8.0% of maximum Ca2+ response; n=10 to 17; P<0.05); a potentiation of the muscarinic negative chronotropic response (carbamylcholine, 3.10(-8) mol/L: -63.9+/-14% versus -27.7+/-5.6% of basal rate; n=8 to 10; P<0.05), confirmed by telemetry in vivo; and an attenuation of the accentuated antagonism of beta-adrenergically stimulated contraction (-14.6+/-1.5% versus -3.5+/-1.5; n=7 to 11; P<0.05). Cardiomyocyte NOS inhibition reversed all 4 effects (P<0.05). CONCLUSIONS: Moderate overexpression of NOS3, targeted to caveolae in murine cardiomyocytes, potentiates the postsynaptic muscarinic response and attenuates the effect of high concentrations of catecholamines. Cardiomyocyte NOS3 may represent a promising therapeutic target to restore the sympathovagal balance and protect the heart against arrhythmia.
BACKGROUND: In the heart, nitric oxide synthases (NOS) modulate cardiac contraction in an isoform-specific manner, which is critically dependent on their cellular and subcellular localization. Defective NO production by NOS3 (endothelial NOS [eNOS]) in the failing heart may precipitate cardiac failure, which could be reversed by overexpression of NOS3 in the myocardium. METHODS AND RESULTS: We studied the influence of NOS3 in relation to its subcellular localization on the function of cardiomyocytes isolated from transgenic mice overexpressing NOS3 under the alpha-myosin heavy chain promoter (NOS3-TG). Immunoblot analysis demonstrated moderate (5-fold) NOS3 overexpression in cardiomyocytes from NOS3-TG heterozygotes. Caveolar localization of transgenic eNOS was demonstrated by immunofluorescence, coimmunoprecipitation with caveolin-3, sucrose gradient fractionation, and immunogold staining revealed by electron microscopy. Compared with wild-type littermate, contractility of NOS3-TG cardiomyocytes analyzed by videomicroscopy revealed a lower incidence of spontaneous arrhythmic contractions (n=32, P<0.001); an attenuation of the beta-adrenergic positive inotropic response (isoproterenol, 10(-7) mol/L: 62.1+/-7.8% versus 90.8+/-8.0% of maximum Ca2+ response; n=10 to 17; P<0.05); a potentiation of the muscarinic negative chronotropic response (carbamylcholine, 3.10(-8) mol/L: -63.9+/-14% versus -27.7+/-5.6% of basal rate; n=8 to 10; P<0.05), confirmed by telemetry in vivo; and an attenuation of the accentuated antagonism of beta-adrenergically stimulated contraction (-14.6+/-1.5% versus -3.5+/-1.5; n=7 to 11; P<0.05). Cardiomyocyte NOS inhibition reversed all 4 effects (P<0.05). CONCLUSIONS: Moderate overexpression of NOS3, targeted to caveolae in murine cardiomyocytes, potentiates the postsynaptic muscarinic response and attenuates the effect of high concentrations of catecholamines. Cardiomyocyte NOS3 may represent a promising therapeutic target to restore the sympathovagal balance and protect the heart against arrhythmia.
Authors: Farideh Beigi; Daniel R Gonzalez; Khalid M Minhas; Qi-An Sun; Matthew W Foster; Shakil A Khan; Adriana V Treuer; Raul A Dulce; Robert W Harrison; Roberto M Saraiva; Courtney Premer; Ivonne Hernandez Schulman; Jonathan S Stamler; Joshua M Hare Journal: Proc Natl Acad Sci U S A Date: 2012-02-24 Impact factor: 11.205
Authors: Xinli Zhou; Lixin Ma; Javad Habibi; Adam Whaley-Connell; Melvin R Hayden; Roger D Tilmon; Ashley N Brown; Jeong-A Kim; Vincent G Demarco; James R Sowers Journal: Hypertension Date: 2010-02-22 Impact factor: 10.190
Authors: Olena Andrukhova; Svetlana Slavic; Ute Zeitz; Sabine C Riesen; Monika S Heppelmann; Tamas D Ambrisko; Mato Markovic; Wolfgang M Kuebler; Reinhold G Erben Journal: Mol Endocrinol Date: 2013-01-01