TY - JOUR
T1 - Altered right atrial excitation and propagation in connexin40 knockout mice
AU - Bagwe, Suveer
AU - Berenfeld, Omer
AU - Vaidya, Dhananjay
AU - Morley, Gregory E.
AU - Jalife, José
PY - 2005/10/11
Y1 - 2005/10/11
N2 - Background - Intercellular coupling via connexin40 (Cx40) gap junction channels is an important determinant of impulse propagation in the atria. Methods and Results - We studied the role of Cx40 in intra-atrial excitation and propagation in wild-type (Cx40+/+) and knockout (Cx40-/-) mice using high-resolution, dual-wavelength optical mapping. On ECG, the P wave was significantly prolonged in Cx40-/- mice (13.4±0.5 versus 11.4±0.3 ms in Cx40+/+). In Cx40+/+ hearts, spontaneous right atrial (RA) activation showed a focal breakthrough at the junction of the right superior vena cava, sulcus terminalis, and RA free wall, corresponding to the location of the sinoatrial node. In contrast, Cx40 -/- hearts displayed ectopic breakthrough sites at the base of the sulcus terminalis, RA free wall, and right superior vena cava. Progressive ablation of such sites in 4 Cx40-/- mice resulted in ectopic focus migration and cycle length prolongation. In all Cx40-/- hearts the focus ultimately shifted to the sinoatrial node at a very prolonged cycle length (initial ectopic cycle length, 182 ±20 ms; postablation sinus cycle length, 387±44 ms). In a second group of experiments, epicardial pacing at 10 Hz revealed slower conduction in the RA free wall of 5 Cx40-/- hearts than in 5 Cx40+/+ hearts (0.61±0.07 versus 0.94±0.07 m/s; P<0.05). Dominant frequency analysis in Cx40 -/- RA demonstrated significant reduction in the area of 1:1 conduction at 16 Hz (40±10% versus 69±5% in Cx40+/+) and 25 Hz (36±11% versus 65±9% in Cx40+/+). Conclusions - This is the first demonstration of intra-atrial block, ectopic rhythms, and altered atrial propagation in the RA of Cx40-/- mice.
AB - Background - Intercellular coupling via connexin40 (Cx40) gap junction channels is an important determinant of impulse propagation in the atria. Methods and Results - We studied the role of Cx40 in intra-atrial excitation and propagation in wild-type (Cx40+/+) and knockout (Cx40-/-) mice using high-resolution, dual-wavelength optical mapping. On ECG, the P wave was significantly prolonged in Cx40-/- mice (13.4±0.5 versus 11.4±0.3 ms in Cx40+/+). In Cx40+/+ hearts, spontaneous right atrial (RA) activation showed a focal breakthrough at the junction of the right superior vena cava, sulcus terminalis, and RA free wall, corresponding to the location of the sinoatrial node. In contrast, Cx40 -/- hearts displayed ectopic breakthrough sites at the base of the sulcus terminalis, RA free wall, and right superior vena cava. Progressive ablation of such sites in 4 Cx40-/- mice resulted in ectopic focus migration and cycle length prolongation. In all Cx40-/- hearts the focus ultimately shifted to the sinoatrial node at a very prolonged cycle length (initial ectopic cycle length, 182 ±20 ms; postablation sinus cycle length, 387±44 ms). In a second group of experiments, epicardial pacing at 10 Hz revealed slower conduction in the RA free wall of 5 Cx40-/- hearts than in 5 Cx40+/+ hearts (0.61±0.07 versus 0.94±0.07 m/s; P<0.05). Dominant frequency analysis in Cx40 -/- RA demonstrated significant reduction in the area of 1:1 conduction at 16 Hz (40±10% versus 69±5% in Cx40+/+) and 25 Hz (36±11% versus 65±9% in Cx40+/+). Conclusions - This is the first demonstration of intra-atrial block, ectopic rhythms, and altered atrial propagation in the RA of Cx40-/- mice.
KW - Atrium
KW - Conduction
KW - Connexins
KW - Fourier analysis
KW - Sinoatrial node
UR - http://www.scopus.com/inward/record.url?scp=26844537322&partnerID=8YFLogxK
U2 - 10.1161/CIRCULATIONAHA.104.527325
DO - 10.1161/CIRCULATIONAHA.104.527325
M3 - Article
C2 - 16203917
AN - SCOPUS:26844537322
SN - 0009-7322
VL - 112
SP - 2245
EP - 2253
JO - Circulation
JF - Circulation
IS - 15
ER -