Cardiac-specific overexpression of RhoA results in sinus and atrioventricular nodal dysfunction and contractile failure
Valerie P. Sah, … , Kenneth R. Chien, Joan Heller Brown
Valerie P. Sah, … , Kenneth R. Chien, Joan Heller Brown
Published June 15, 1999
Citation Information: J Clin Invest. 1999;103(12):1627-1634. https://doi.org/10.1172/JCI6842.
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Cardiac-specific overexpression of RhoA results in sinus and atrioventricular nodal dysfunction and contractile failure

Abstract

RhoA is a low-molecular-weight GTPase that has been implicated in the regulation of hypertrophic cardiac muscle cell growth. To study the role of RhoA in control of cardiac function in vivo, transgenic mice expressing wild-type and constitutively activated forms of RhoA under the control of the cardiac-specific α-myosin heavy chain promoter were generated. Transgene-positive mice expressing high levels of either wild-type or activated RhoA showed pronounced atrial enlargement and manifested a lethal phenotype, often preceded by generalized edema, with most animals dying over the course of a few weeks. Echocardiographic analysis of visibly healthy wild-type RhoA transgenic mice revealed no significant change in left ventricular function. As their condition deteriorated, significant dilation of the left ventricular chamber and associated decreases in left ventricular contractility were detected. Heart rate was grossly depressed in both wild-type and activated RhoA-expressing mice, even prior to the onset of ventricular failure. Electrocardiography showed evidence of atrial fibrillation and atrioventricular block. Interestingly, muscarinic receptor blockade with atropine did not elicit a positive chronotropic response in the transgenic mice. We suggest that RhoA regulates cardiac sinus and atrioventricular nodal function and that its overexpression results in bradycardia and development of ventricular failure.

Authors

Valerie P. Sah, Susumu Minamisawa, Steven P. Tam, Thomas H. Wu, Gerald W. Dorn II, John Ross Jr., Kenneth R. Chien, Joan Heller Brown

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Figure 7

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RhoA transgenic mice have slow heart rate and fail to respond to atropin...
RhoA transgenic mice have slow heart rate and fail to respond to atropine. Representative ECG recordings from an anesthetized nontransgenic (NTG) mouse (a) and an anesthetized RhoA transgenic (TG) mouse with atrial fibrillation (b) or AV block before (c) and after (d) intraperitoneal atropine administration. All ECG tracings are to the same scale as indicated in a. In c and d, P waves are indicated by arrows; atrial (a) and ventricular (v) depolarizations are depicted in the ladder diagrams, as shown above each recording. Ventricular rates (e) and, where possible, atrial rates (f), were determined for nontransgenic (open squares), wild-type RhoA transgenic (filled circles), and constitutively activated RhoA transgenic (filled triangles) mice at basal conditions and following intraperitoneal atropine administration. Ventricular rates (NTG: n = 5; TG: n = 5) or atrial rates (NTG: n = 5; TG: n = 3), presented as mean ± SD for each condition, are indicated below the respective graphs. *P < 0.02 atropine vs. basal.