Abstract 85: Interactions Between Cardiac Myosin Binding Protein C and Actin Contribute to the Regulation of Cardiac Contraction

Abstract only Cardiac myosin binding protein C (cMyBP-C) is a regulatory muscle protein that is essential for proper cardiac contraction, and mutations in cMyBP-C are commonly associated with hypertrophic cardiomyopathy. cMyBP-C not only interacts with myosin, but with actin as well. In vitro studie...

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Published inCirculation research Vol. 119; no. suppl_1
Main Authors van Dijk, Sabine J, Bezold Kooiker, Kristina, Harris, Samantha P
Format Journal Article
LanguageEnglish
Published 22.07.2016
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Abstract Abstract only Cardiac myosin binding protein C (cMyBP-C) is a regulatory muscle protein that is essential for proper cardiac contraction, and mutations in cMyBP-C are commonly associated with hypertrophic cardiomyopathy. cMyBP-C not only interacts with myosin, but with actin as well. In vitro studies have demonstrated that multiple functions of cMyBP-C could readily be explained by an interaction between cMyBP-C and actin, but the in vivo significance of cMyBP-C binding to either myosin or actin is not well understood. Here we created transgenic mice with a single point mutation (L348P) in a key binding domain of cMyBP-C that enhances the binding affinity of cMyBP-C for actin in vitro (Bezold et al , JBC 2013) to gain insights into the relevance of cMyBP-C binding to actin in working hearts. Echocardiograms from 3 month old male L348P-Tg mice (N=23) and non-transgenic (nTg, N=17) controls were used to assess systolic and diastolic function. Results showed significantly prolonged isovolumetric relaxation time (L348P-Tg: 18.5±0.6 vs nTg: 10.2±0.3 ms) and slower movement of the mitral valve annulus (E’: -17.2±1.5 vs -32.2±1.6 and A’: -9.1±1.7 vs -17.6±1.0 mm/s, p<0.05), accompanied by slower inflow of blood into the left ventricle (reduced E and A, prolonged mitral valve deceleration time). Pressure-volume measurements showed significantly reduced rates of pressure decay in L348P-Tg mice (Tau Glantz: 39.1±2.6 vs 12.7±0.9 ms) and an increased end-diastolic pressure volume relationship (0.13±0.02 vs 0.07±0.01). We challenged mice with acute beta-adrenergic stimulation (isoprenaline injection) to determine whether the L348P mutation affected contractile reserve. Isoprenaline had little effect on diastolic parameters, but revealed systolic dysfunction in L348P-Tg mice as evident from a blunted increase in contraction (e.g. fractional shortening after isoprenaline: 38.5±1.3 vs 44.2±1.7%). Taken together our results show for the first time that interactions between cMyBP-C and actin are relevant for functioning of the whole heart. Increasing the cMyBP-C-actin interaction by the L348P mutation caused increased stiffness of the left ventricle, slowed relaxation and diastolic dysfunction. Results also suggested that the L348P mutation reduces contractile reserve.
AbstractList Abstract only Cardiac myosin binding protein C (cMyBP-C) is a regulatory muscle protein that is essential for proper cardiac contraction, and mutations in cMyBP-C are commonly associated with hypertrophic cardiomyopathy. cMyBP-C not only interacts with myosin, but with actin as well. In vitro studies have demonstrated that multiple functions of cMyBP-C could readily be explained by an interaction between cMyBP-C and actin, but the in vivo significance of cMyBP-C binding to either myosin or actin is not well understood. Here we created transgenic mice with a single point mutation (L348P) in a key binding domain of cMyBP-C that enhances the binding affinity of cMyBP-C for actin in vitro (Bezold et al , JBC 2013) to gain insights into the relevance of cMyBP-C binding to actin in working hearts. Echocardiograms from 3 month old male L348P-Tg mice (N=23) and non-transgenic (nTg, N=17) controls were used to assess systolic and diastolic function. Results showed significantly prolonged isovolumetric relaxation time (L348P-Tg: 18.5±0.6 vs nTg: 10.2±0.3 ms) and slower movement of the mitral valve annulus (E’: -17.2±1.5 vs -32.2±1.6 and A’: -9.1±1.7 vs -17.6±1.0 mm/s, p<0.05), accompanied by slower inflow of blood into the left ventricle (reduced E and A, prolonged mitral valve deceleration time). Pressure-volume measurements showed significantly reduced rates of pressure decay in L348P-Tg mice (Tau Glantz: 39.1±2.6 vs 12.7±0.9 ms) and an increased end-diastolic pressure volume relationship (0.13±0.02 vs 0.07±0.01). We challenged mice with acute beta-adrenergic stimulation (isoprenaline injection) to determine whether the L348P mutation affected contractile reserve. Isoprenaline had little effect on diastolic parameters, but revealed systolic dysfunction in L348P-Tg mice as evident from a blunted increase in contraction (e.g. fractional shortening after isoprenaline: 38.5±1.3 vs 44.2±1.7%). Taken together our results show for the first time that interactions between cMyBP-C and actin are relevant for functioning of the whole heart. Increasing the cMyBP-C-actin interaction by the L348P mutation caused increased stiffness of the left ventricle, slowed relaxation and diastolic dysfunction. Results also suggested that the L348P mutation reduces contractile reserve.
Author Harris, Samantha P
van Dijk, Sabine J
Bezold Kooiker, Kristina
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