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Transgenic knockdown of cardiac sodium/glucose cotransporter 1 (SGLT1) attenuates PRKAG2 cardiomyopathy,whereas transgenic overexpression of cardiac SGLT1 causes pathologic hypertrophy and dysfunction in mice
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نویسنده
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ramratnam m. ,sharma r.k. ,d'auria s. ,lee s.j. ,wang d. ,huang x.y.n. ,ahmad f.
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منبع
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journal of the american heart association - 2014 - دوره : 3 - شماره : 4
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چکیده
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Background: the expression of a novel cardiac glucose transporter,sglt1,is increased in glycogen storage cardiomyopathy secondary to mutations in prkag2. we sought to determine the role of sglt1 in the pathogenesis of prkag2 cardiomyopathy and its role in cardiac structure and function. methods and results: transgenic mice with cardiomyocyte-specific overexpression of human t400n mutant prkag2 cdna (tgt400n) and transgenic mice with cardiomyocyte-specific rna interference knockdown of sglt1 (tgsglt1-down) were crossed to produce double-transgenic mice (tgt400n/tgsglt1-down). tet-off transgenic mice conditionally overexpressing cardiac sglt1 in the absence of doxycycline were also constructed (tgsglt-on). relative to tgt400n mice,tgt400n/tgsglt1-down mice exhibited decreases in cardiac sglt1 expression (63% decrease,p<0.05),heart/body weight ratio,markers of cardiac hypertrophy,and cardiac glycogen content. tgt400n/tgsglt1-down mice had less left ventricular dilation at age 12 weeks compared to tgt400n mice. relative to wildtype (wt) mice,tgsglt1-on mice exhibited increases in heart/body weight ratio,glycogen content,and markers of cardiac hypertrophy at ages 10 and 20 weeks. tgsglt1-on mice had increased myocyte size and interstitial fibrosis,and progressive left ventricular dysfunction. when sglt1 was suppressed after 10 weeks of overexpression (tgsglt1-on/off),there was a reduction in cardiac hypertrophy and improvement in left ventricular failure. conclusions: cardiac knockdown of sglt1 in a murine model of prkag2 cardiomyopathy attenuates the disease phenotype,implicating sglt1 in the pathogenesis. overexpression of sglt1 causes pathologic cardiac hypertrophy and left ventricular failure that is reversible. this is the first report of cardiomyocyte-specific transgenic knockdown of a target gene. © 2014 the authors.
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کلیدواژه
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Cardiomyopathy; Glucose; Heart failure; Hypertrophy
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آدرس
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division of cardiovascular medicine,department of medicine,university of wisconsin,madison,wi,united states,upmc heart and vascular institute and division of cardiology,department of medicine,university of pittsburgh,pittsburgh,pa, United States, upmc heart and vascular institute and division of cardiology,department of medicine,university of pittsburgh,pittsburgh,pa, United States, upmc heart and vascular institute and division of cardiology,department of medicine,university of pittsburgh,pittsburgh,pa, United States, upmc heart and vascular institute and division of cardiology,department of medicine,university of pittsburgh,pittsburgh,pa, United States, upmc heart and vascular institute and division of cardiology,department of medicine,university of pittsburgh,pittsburgh,pa, United States, upmc heart and vascular institute and division of cardiology,department of medicine,university of pittsburgh,pittsburgh,pa, United States, upmc heart and vascular institute and division of cardiology,department of medicine,university of pittsburgh,pittsburgh,pa,united states,department of human genetics,university of pittsburgh,pittsburgh,pa,united states,division of cardiovascular medicine,department of internal medicine,university of iowa carver college of medicine,iowa city,ia, United States
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Authors
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