Fabritz Larissa, Fortmueller Lisa, Gehmlich Katja, Kant Sebastian, Kemper Marcel, Kucerova Dana, Syeda Fahima, Faber Cornelius, Leube Rudolf E, Kirchhof Paulus, Krusche Claudia A
University Center of Cardiovascular Science and Department of Cardiology, University Heart and Vascular Center, University Hospital Hamburg Eppendorf, 20246 Hamburg, Germany.
German Center for Cardiovascular Research (DZHK), Partner Site Hamburg/Kiel/Lübeck, 20246 Hamburg, Germany.
Biomedicines. 2024 Apr 30;12(5):985. doi: 10.3390/biomedicines12050985.
Desmoglein-2 mutations are detected in 5-10% of patients with arrhythmogenic right ventricular cardiomyopathy (ARVC). Endurance training accelerates the development of the ARVC phenotype, leading to earlier arrhythmic events. Homozygous mutant mice develop a severe ARVC-like phenotype. The phenotype of heterozygous mutant () or haploinsufficient () mice is still not well understood. To assess the effects of age and endurance swim training, we studied cardiac morphology and function in sedentary one-year-old and mice and in young mice exposed to endurance swim training. Cardiac structure was only occasionally affected in aged and mice manifesting as small fibrotic foci and displacement of Connexin 43. Endurance swim training increased the right ventricular (RV) diameter and decreased RV function in mice but not in wild types. hearts showed increased ventricular activation times and pacing-induced ventricular arrhythmia without obvious fibrosis or inflammation. Preload-reducing therapy during training prevented RV enlargement and alleviated the electrophysiological phenotype. Taken together, endurance swim training induced features of ARVC in young adult mice. Prolonged ventricular activation times in the hearts of trained mice are therefore a potential mechanism for increased arrhythmia risk. Preload-reducing therapy prevented training-induced ARVC phenotype pointing to beneficial treatment options in human patients.
在5%至10%的致心律失常性右室心肌病(ARVC)患者中可检测到桥粒芯糖蛋白-2突变。耐力训练会加速ARVC表型的发展,导致更早出现心律失常事件。纯合突变小鼠会出现严重的ARVC样表型。杂合突变()或单倍体不足()小鼠的表型仍未得到充分了解。为了评估年龄和耐力游泳训练的影响,我们研究了久坐不动的一岁和小鼠以及接受耐力游泳训练的年轻小鼠的心脏形态和功能。老年和小鼠的心脏结构仅偶尔受到影响,表现为小的纤维化病灶和连接蛋白43的移位。耐力游泳训练增加了小鼠的右心室(RV)直径并降低了RV功能,但对野生型小鼠没有影响。心脏显示心室激活时间延长和起搏诱导的室性心律失常,且无明显纤维化或炎症。训练期间的减前负荷治疗可防止RV扩大并减轻电生理表型。综上所述,耐力游泳训练在年轻成年小鼠中诱发了ARVC的特征。因此,训练小鼠心脏中延长的心室激活时间是心律失常风险增加的潜在机制。减前负荷治疗可预防训练诱导的ARVC表型,这为人类患者提供了有益的治疗选择。
