Centre National de la Recherche Scientifique FRE3092, Université François-Rabelais, F-37041 Tours, France.
Endocrinology. 2010 Apr;151(4):1837-45. doi: 10.1210/en.2009-1184. Epub 2010 Feb 22.
Neurohormonal imbalance is a key determinant of the progression of heart failure (HF), which results in an elevated risk of mortality. A better understanding of mechanisms involved may influence treatment strategies. The incidence and prevalence of HF are lower in women. We explored sexual dimorphism in the progression of HF using a mice model of neurohormonal-dependent HF. Male and female mice overexpressing the human beta2-adrenergic receptor (TG4 strain) develop HF. We compared TG4 animals with age-matched wild-type controls. Cardiac function was studied in vivo by echocardiography and electrocardiography. Histological studies were performed. Conduction parameters were assessed by intracardiac electrophysiological exploration, as was the occurrence of spontaneous and inducible arrhythmias. The patch-clamp technique was used to determine the cellular electrophysiological profile. The role of hormonal status in HF progression was investigated by surgical gonadectomy. High mortality rate was observed in TG4 mice with a dramatic difference between males and females. Male TG4 mice exhibited intraventricular conduction abnormalities, as measured by infrahisian interval and QRS durations potentially determining reentrant circuits and increasing susceptibility to arrhythmia. The severity of HF was correlated with the degree of fibrosis, which was modulated by the gonadal hormones. Action potentials recorded from male and female left ventricular cardiomyocytes were indistinguishable, although both sexes exhibited delayed repolarization when compared with their wild-type counterparts. In conclusion, female TG4 mice were better protected than males against cardiac remodeling and rhythm disorders. A link between fibrosis, conduction time, and mortality was established in relation with sex hormones.
神经激素失衡是心力衰竭(HF)进展的关键决定因素,这会增加死亡率。更好地了解相关机制可能会影响治疗策略。女性心力衰竭的发病率和患病率较低。我们使用神经激素依赖性心力衰竭的小鼠模型探索了心力衰竭进展中的性别二态性。过表达人β2-肾上腺素能受体(TG4 株)的雄性和雌性小鼠会发展为心力衰竭。我们将 TG4 动物与年龄匹配的野生型对照进行了比较。通过超声心动图和心电图在体内研究了心脏功能。进行了组织学研究。通过心内电生理探索评估了传导参数,并评估了自发性和诱发性心律失常的发生。使用膜片钳技术确定了细胞电生理特征。通过手术性腺切除术研究了激素状态在心力衰竭进展中的作用。TG4 小鼠的死亡率很高,雄性和雌性之间存在显著差异。雄性 TG4 小鼠表现出室内传导异常,如 infrahisian 间隔和 QRS 持续时间测量,这可能决定折返回路并增加心律失常易感性。HF 的严重程度与纤维化程度相关,而纤维化程度受性腺激素调节。从雄性和雌性左心室心肌细胞记录的动作电位相似,尽管与野生型相比,两者的复极都延迟。总之,雌性 TG4 小鼠比雄性更能免受心脏重构和节律紊乱的影响。与性激素相关,建立了纤维化、传导时间和死亡率之间的联系。
