Defective Tbx2-dependent patterning of the atrioventricular canal myocardium causes accessory pathway formation in mice
Wim T.J. Aanhaanen, … , Ruben Coronel, Vincent M. Christoffels
Wim T.J. Aanhaanen, … , Ruben Coronel, Vincent M. Christoffels
Published January 25, 2011
Citation Information: J Clin Invest. 2011;121(2):534-544. https://doi.org/10.1172/JCI44350.
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Research Article

Defective Tbx2-dependent patterning of the atrioventricular canal myocardium causes accessory pathway formation in mice

Abstract

Ventricular preexcitation, a feature of Wolff-Parkinson-White syndrome, is caused by accessory myocardial pathways that bypass the annulus fibrosus. This condition increases the risk of atrioventricular tachycardia and, in the presence of atrial fibrillation, sudden death. The developmental mechanisms underlying accessory pathway formation are poorly understood but are thought to primarily involve malformation of the annulus fibrosus. Before birth, slowly conducting atrioventricular myocardium causes a functional atrioventricular activation delay in the absence of the annulus fibrosus. This myocardium remains present after birth, suggesting that the disturbed development of the atrioventricular canal myocardium may mediate the formation of rapidly conducting accessory pathways. Here we show that myocardium-specific inactivation of T-box 2 (Tbx2), a transcription factor essential for atrioventricular canal patterning, leads to the formation of fast-conducting accessory pathways, malformation of the annulus fibrosus, and ventricular preexcitation in mice. The accessory pathways ectopically express proteins required for fast conduction (connexin-40 [Cx40], Cx43, and sodium channel, voltage-gated, type V, α [Scn5a]). Additional inactivation of Cx30.2, a subunit for gap junctions with low conductance expressed in the atrioventricular canal and unaffected by the loss of Tbx2, did not affect the functionality of the accessory pathways. Our results suggest that malformation of the annulus fibrosus and preexcitation arise from the disturbed development of the atrioventricular myocardium.

Authors

Wim T.J. Aanhaanen, Bastiaan J.D. Boukens, Aleksander Sizarov, Vincent Wakker, Corrie de Gier-de Vries, Antoni C. van Ginneken, Antoon F.M. Moorman, Ruben Coronel, Vincent M. Christoffels

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Figure 4

Genes typical for the AV canal and genes typical for the working myocardium are simultaneously expressed in the left side of the AV canal of Tbx2–/– fetuses.

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Genes typical for the AV canal and genes typical for the working myocard...
In situ hybridization analyses in sections of (A and B) wild-type fetuses and (C and D) Myh6-CreTbx2fl/fl fetuses. B and D show higher magnification images of the areas within the black squares in A and C, respectively. (A and C) cTnI labels the myocardium. (B) In wild-type fetuses, the AV canal myocardium (black arrowheads) did not express Cx40 and Scn5a (also known as Nav1.5), genes associated with fast conduction. The AV canal myocardium did express typical AV canal genes associated with slow conduction (Cacna1g and Cacna2d2), automaticity (Hcn4), and AV conduction system maturation (Id2). (D) In Tbx2–/– fetuses, Cx40 and Scn5a are ectopically expressed in the left AV canal myocardium. The AV canal–specific genes are still expressed and even found in the left ventricular wall in some cases (red arrowheads). Original magnification, ×5 (A and C); ×10 (B and D).