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http://dx.doi.org/10.4062/biomolther.2012.20.4.386

Endothelin Receptor Overexpression Alters Diastolic Function in Cultured Rat Ventricular Myocytes  

Kang, Mi-Suk (Molecular and Cellular Pharmacology, University of Wisconsin)
Walker, Jeffery W. (Molecular and Cellular Pharmacology, University of Wisconsin)
Chung, Ka-Young (Molecular and Cellular Pharmacology, University of Wisconsin)
Publication Information
Biomolecules & Therapeutics / v.20, no.4, 2012 , pp. 386-392 More about this Journal
Abstract
The endothelin (ET) signaling pathway controls many physiological processes in myocardium and often becomes upregulated in heart diseases. The aim of the present study was to investigate the effects of ET receptor upregulation on the contractile function of adult ventricular myocytes. Primary cultured adult rat ventricular myocytes were used as a model system of ET receptor overexpression in the heart. Endothelin receptor type A ($ET_A$) or type B ($ET_B$) was overexpressed by Adenoviral infection, and the twitch responses of infected ventricular myocytes were measured after ET-1 stimulation. Overexpression of $ET_A$ exaggerated positive inotropic effect (PIE) and diastolic shortening of ET-1, and induced a new twitch response including twitch broadening. On the contrary, overexpression of $ET_B$ increased PIE of ET-1, but did not affect other two twitch responses. Control myocytes expressing endogenous receptors showed a parallel increase in twitch amplitude and systolic $Ca^{2+}$ in response to ET-1. However, intracellular $Ca^{2+}$ did not change in proportion to the changes in contractility in myocytes overexpressing $ET_A$. Overexpression of $ET_A$ enhanced both systolic and diastolic contractility without parallel changes in $Ca^{2+}$. Differential regulation of this nature indicates that upregulation of $ET_A$ may contribute to diastolic myocardial dysfunction by selectively targeting myofilament proteins that regulate resting cell length, twitch duration and responsiveness to prevailing $Ca^{2+}$.
Keywords
Cardiac myocytes; Twitch kinetics; Diastolic dysfunction; Endothelin receptor; ET-1;
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