Endothelial estrogen - myocardial cGMP axis critically determines angiogenesis and cardiac performance during pressure-overload

IF 10.2 1区 医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS
Nobuaki Fukuma, Hiroyuki Tokiwa, Genri Numata, Kazutaka Ueda, Pangyen Liu, Miyu Tajima, Yu Otsu, Taro Kariya, Yukio Hiroi, James K Liao, Issei Komuro, Eiki Takimoto
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引用次数: 0

Abstract

Aim Estrogen exerts beneficial cardiovascular effects by binding to specific receptors on various cells to activate nuclear and non-nuclear actions. Estrogen receptor α (ERα) non-nuclear signaling confers protection against heart failure remodeling, involving myocardial cyclic guanosine monophosphate (cGMP) - cGMP-dependent protein kinase G (PKG) activation; however, its tissue-specific role remains elusive. Herein, we examined the cell type-specific role of ERα non-nuclear signaling in estrogen-conferred protection against heart failure. Methods and results We first assessed the tissue-specific impacts of ERα in estrogen’s cardiac benefits, utilizing endothelial ERα deletion (ERαf/f/Tie2Cre+) and myocyte ERα deletion (ERαf/f/αMHCCre+) female mice. Female mice were ovariectomized and the effect of estradiol (E2) was assessed in hearts exposed to 3week pressure-overload (TAC). E2 failed to improve cardiac function in ERαf/f/Tie2Cre+ TAC hearts but provided benefits in ERαf/f/αMHCCre+ TAC hearts, indicating that endothelial ERα is essential. We next assessed the role of non-nuclear signaling in endothelial cells, employing animals with endothelial-specific inactivation of ERα non-nuclear signaling (ERαKI/KI/Tie2Cre+). Female OVX mice were supplemented with E2 and subjected to 3-week TAC. ERαKI/KI/Tie2Cre+ TAC hearts revealed exacerbated cardiac dysfunction and reduced myocardial PKG activity as compared to littermate TAC hearts, which was associated with attenuated myocardial induction of vascular endothelial growth factor (VEGF) and angiogenesis as assessed with CD31-stained capillary density. This phenotype of ERαKI/KI/Tie2Cre+ was rescued by myocardial PKG activation from chronic treatment with soluble guanylate cyclase (sGC) stimulator. We performed co-culture experiments to determine endothelial-cardiomyocyte interactions. VEGF induction by E2 in cardiac myocytes required co-existence of intact endothelial ERα signaling in a NOS-dependent manner. On the other hand, VEGF was induced in myocytes directly with an sGC stimulator in the absence of endothelial cells. Conclusions An endothelial estrogen - myocardial cGMP axis stimulates angiogenic response and improves cardiac performance during pressure-overload.
内皮雌激素--心肌 cGMP 轴在压力过载期间对血管生成和心脏性能起着至关重要的决定作用
目的 雌激素通过与各种细胞上的特定受体结合,激活核和非核作用,从而对心血管产生有益影响。雌激素受体α(ERα)的非核信号传导对心衰重塑具有保护作用,其中涉及心肌环磷酸鸟苷(cGMP)-cGMP依赖性蛋白激酶G(PKG)的激活;然而,其组织特异性作用仍然难以捉摸。在此,我们研究了ERα非核信号在雌激素保护心衰中的细胞特异性作用。方法和结果 我们首先利用内皮细胞ERα缺失(ERαf/f/Tie2Cre+)和肌细胞ERα缺失(ERαf/f/αMHCCre+)雌性小鼠评估了ERα在雌激素对心脏的益处中的组织特异性影响。对雌性小鼠进行卵巢切除,并评估雌二醇(E2)对心脏承受3周压力过载(TAC)的影响。雌二醇未能改善ERαf/f/Tie2Cre+ TAC心脏的心功能,但对ERαf/f/αMHCCre+ TAC心脏有益,这表明内皮ERα至关重要。接下来,我们采用内皮特异性失活ERα非核信号传导(ERαKI/KI/Tie2Cre+)的动物,评估了非核信号传导在内皮细胞中的作用。雌性OVX小鼠补充E2并接受为期3周的TAC。与同种TAC小鼠相比,ERαKI/KI/Tie2Cre+ TAC小鼠的心脏功能障碍加剧,心肌PKG活性降低,这与心肌诱导血管内皮生长因子(VEGF)和血管生成(用CD31染色的毛细血管密度评估)减弱有关。ERαKI/KI/Tie2Cre+的这种表型可通过长期使用可溶性鸟苷酸环化酶(sGC)刺激剂激活心肌PKG而得到挽救。我们进行了共培养实验,以确定内皮细胞与心肌细胞之间的相互作用。E2 在心肌细胞中诱导血管内皮生长因子需要以 NOS 依赖性方式同时存在完整的内皮 ERα 信号传导。另一方面,在没有内皮细胞的情况下,用 sGC 刺激剂可直接诱导心肌细胞中的 VEGF。结论 内皮雌激素-心肌 cGMP 轴可刺激血管生成反应,改善压力过载时的心脏性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Cardiovascular Research
Cardiovascular Research 医学-心血管系统
CiteScore
21.50
自引率
3.70%
发文量
547
审稿时长
1 months
期刊介绍: Cardiovascular Research Journal Overview: International journal of the European Society of Cardiology Focuses on basic and translational research in cardiology and cardiovascular biology Aims to enhance insight into cardiovascular disease mechanisms and innovation prospects Submission Criteria: Welcomes papers covering molecular, sub-cellular, cellular, organ, and organism levels Accepts clinical proof-of-concept and translational studies Manuscripts expected to provide significant contribution to cardiovascular biology and diseases
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