alpha-Tropomyosin mutations Asp(175)Asn and Glu(180)Gly affect cardiac function in transgenic rats in different ways

To study the mechanisms by which missense mutations in alpha-tropomyosin cause familial hypertrophic cardiomyopathy, we generated transgenic rats overexpressing alpha-tropomyosin with one of two disease-causing mutations, Asp(175)Asn or Glu(180)Gly, and analyzed phenotypic changes at molecular, morp...

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Veröffentlicht in:	American journal of physiology. Regulatory, integrative and comparative physiology integrative and comparative physiology, 2004-09, Vol.287 (3), p.R685-R695
Hauptverfasser:	Wernicke, Dirk, Thiel, Corinna, Duja-Isac, Corina M, Essin, Kirill V, Spindler, Matthias, Nunez, Derek J R, Plehm, Ralph, Wessel, Niels, Hammes, Annette, Edwards, Robert-J, Lippoldt, Andrea, Zacharias, Ute, Strömer, Hinrik, Neubauer, Stefan, Davies, Michael J, Morano, Ingo, Thierfelder, Ludwig
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Schlagworte:	Animals Animals, Genetically Modified Asparagine Aspartic Acid Biomarkers - analysis Calcium - metabolism Calcium - pharmacology Cardiomyopathy, Hypertrophic, Familial - genetics Cardiomyopathy, Hypertrophic, Familial - metabolism Cardiomyopathy, Hypertrophic, Familial - physiopathology Gene Expression Glutamic Acid Glycine Heart - physiopathology Heart Ventricles Humans Immunohistochemistry In Vitro Techniques Muscle Fibers, Skeletal - drug effects Mutation, Missense Myocardial Contraction Myocytes, Cardiac - metabolism Rats Sarcomeres - metabolism Transgenes Tropomyosin - genetics Tropomyosin - metabolism
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creator	Wernicke, Dirk Thiel, Corinna Duja-Isac, Corina M Essin, Kirill V Spindler, Matthias Nunez, Derek J R Plehm, Ralph Wessel, Niels Hammes, Annette Edwards, Robert-J Lippoldt, Andrea Zacharias, Ute Strömer, Hinrik Neubauer, Stefan Davies, Michael J Morano, Ingo Thierfelder, Ludwig
description	To study the mechanisms by which missense mutations in alpha-tropomyosin cause familial hypertrophic cardiomyopathy, we generated transgenic rats overexpressing alpha-tropomyosin with one of two disease-causing mutations, Asp(175)Asn or Glu(180)Gly, and analyzed phenotypic changes at molecular, morphological, and physiological levels. The transgenic proteins were stably integrated into the sarcomere, as shown by immunohistochemistry using a human-specific anti-alpha-tropomyosin antibody, ARG1. In transgenic rats with either alpha-tropomyosin mutation, molecular markers of cardiac hypertrophy were induced. Ca(2+) sensitivity of cardiac skinned-fiber preparations from animals with mutation Asp(175)Asn, but not Glu(180)Gly, was decreased. Furthermore, elevated frequency and amplitude of spontaneous Ca(2+) waves were detected only in cardiomyocytes from animals with mutation Asp(175)Asn, suggesting an increase in intracellular Ca(2+) concentration compensating for the reduced Ca(2+) sensitivity of isometric force generation. Accordingly, in Langendorff-perfused heart preparations, myocardial contraction and relaxation were accelerated in animals with mutation Asp(175)Asn. The results allow us to propose a hypothesis of the pathogenetic changes caused by alpha-tropomyosin mutation Asp(175)Asn in familial hypertrophic cardiomyopathy on the basis of changes in Ca(2+) handling as a sensitive mechanism to compensate for alterations in sarcomeric structure.
doi_str_mv	10.1152/ajpregu.00620.2003
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The transgenic proteins were stably integrated into the sarcomere, as shown by immunohistochemistry using a human-specific anti-alpha-tropomyosin antibody, ARG1. In transgenic rats with either alpha-tropomyosin mutation, molecular markers of cardiac hypertrophy were induced. Ca(2+) sensitivity of cardiac skinned-fiber preparations from animals with mutation Asp(175)Asn, but not Glu(180)Gly, was decreased. Furthermore, elevated frequency and amplitude of spontaneous Ca(2+) waves were detected only in cardiomyocytes from animals with mutation Asp(175)Asn, suggesting an increase in intracellular Ca(2+) concentration compensating for the reduced Ca(2+) sensitivity of isometric force generation. Accordingly, in Langendorff-perfused heart preparations, myocardial contraction and relaxation were accelerated in animals with mutation Asp(175)Asn. 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Furthermore, elevated frequency and amplitude of spontaneous Ca(2+) waves were detected only in cardiomyocytes from animals with mutation Asp(175)Asn, suggesting an increase in intracellular Ca(2+) concentration compensating for the reduced Ca(2+) sensitivity of isometric force generation. Accordingly, in Langendorff-perfused heart preparations, myocardial contraction and relaxation were accelerated in animals with mutation Asp(175)Asn. 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subjects	Animals Animals, Genetically Modified Asparagine Aspartic Acid Biomarkers - analysis Calcium - metabolism Calcium - pharmacology Cardiomyopathy, Hypertrophic, Familial - genetics Cardiomyopathy, Hypertrophic, Familial - metabolism Cardiomyopathy, Hypertrophic, Familial - physiopathology Gene Expression Glutamic Acid Glycine Heart - physiopathology Heart Ventricles Humans Immunohistochemistry In Vitro Techniques Muscle Fibers, Skeletal - drug effects Mutation, Missense Myocardial Contraction Myocytes, Cardiac - metabolism Rats Sarcomeres - metabolism Transgenes Tropomyosin - genetics Tropomyosin - metabolism
title	alpha-Tropomyosin mutations Asp(175)Asn and Glu(180)Gly affect cardiac function in transgenic rats in different ways
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