OBJECTIVE: In this study we investigated whether differences exist or develop in patients with aortic or mitral valve disease in myofibrillar contractile function and contractile protein composition between subendo- and subepicardial human ventricular tissue. Isometric tension, its calcium sensitivity and contractile protein composition were studied in left ventricular subendo- and subepicardial and in atrial biopsies obtained during open heart surgery from 24 patients with mitral or aortic valve disease. METHODS: Isometric tension was measured in mechanically isolated skinned myocyte-sized preparations at different free calcium concentrations at 15 degrees C. Protein composition was analysed by one-dimensional gel electrophoresis. A comparison was made between the results of subendo- and subepicardial ventricular tissue within each New York Heart Association class and within the different hemodynamically overloaded groups. RESULTS: Maximal isometric tension was significantly lower in atrial than in ventricular preparations. The concentration of calcium required for half-maximal activation was significantly higher in atrial than in ventricular preparations. Within the ventricle no differences were found in contractile protein composition, isometric tension and its calcium sensitivity between subendo- and subepicardial tissue when all patients were treated as one group or when patients were subdivided according to severity of heart disease or hemodynamic overload. CONCLUSIONS: In this group of patients with ventricular volume or pressure overload no regional differences exist or develop during cardiac disease in left ventricular myofibrillar protein composition and force production. Maximal isometric tension and its calcium sensitivity are smaller in atrial than in ventricular preparations.
OBJECTIVE: In this study we investigated whether differences exist or develop in patients with aortic or mitral valve disease in myofibrillar contractile function and contractile protein composition between subendo- and subepicardial human ventricular tissue. Isometric tension, its calcium sensitivity and contractile protein composition were studied in left ventricular subendo- and subepicardial and in atrial biopsies obtained during open heart surgery from 24 patients with mitral or aortic valve disease. METHODS: Isometric tension was measured in mechanically isolated skinned myocyte-sized preparations at different free calcium concentrations at 15 degrees C. Protein composition was analysed by one-dimensional gel electrophoresis. A comparison was made between the results of subendo- and subepicardial ventricular tissue within each New York Heart Association class and within the different hemodynamically overloaded groups. RESULTS: Maximal isometric tension was significantly lower in atrial than in ventricular preparations. The concentration of calcium required for half-maximal activation was significantly higher in atrial than in ventricular preparations. Within the ventricle no differences were found in contractile protein composition, isometric tension and its calcium sensitivity between subendo- and subepicardial tissue when all patients were treated as one group or when patients were subdivided according to severity of heart disease or hemodynamic overload. CONCLUSIONS: In this group of patients with ventricular volume or pressure overload no regional differences exist or develop during cardiac disease in left ventricular myofibrillar protein composition and force production. Maximal isometric tension and its calcium sensitivity are smaller in atrial than in ventricular preparations.
Authors: Premi Haynes; Kristofer E Nava; Benjamin A Lawson; Charles S Chung; Mihail I Mitov; Stuart G Campbell; Arnold J Stromberg; Sakthivel Sadayappan; Mark R Bonnell; Charles W Hoopes; Kenneth S Campbell Journal: J Mol Cell Cardiol Date: 2014-02-20 Impact factor: 5.000
Authors: Hua Wang; Xiaoyan Zhang; Shauna M Dorsey; Jeremy R McGarvey; Kenneth S Campbell; Jason A Burdick; Joseph H Gorman; James J Pilla; Robert C Gorman; Jonathan F Wenk Journal: J Biomech Eng Date: 2016-11-01 Impact factor: 2.097
Authors: Regis R Lamberts; Nazha Hamdani; Tenoedj W Soekhoe; Nicky M Boontje; Ruud Zaremba; Lori A Walker; Pieter P de Tombe; Jolanda van der Velden; Ger J M Stienen Journal: J Physiol Date: 2007-05-03 Impact factor: 5.182
Authors: Christiane A Opitz; Michael Kulke; Mark C Leake; Ciprian Neagoe; Horst Hinssen; Roger J Hajjar; Wolfgang A Linke Journal: Proc Natl Acad Sci U S A Date: 2003-10-16 Impact factor: 11.205