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AKAP150的缺失通过破坏钙循环和收缩储备促进病理重塑和心力衰竭倾向。

Loss of AKAP150 promotes pathological remodelling and heart failure propensity by disrupting calcium cycling and contractile reserve.

作者信息

Li Lei, Li Jing, Drum Benjamin M, Chen Yi, Yin Haifeng, Guo Xiaoyun, Luckey Stephen W, Gilbert Merle L, McKnight G Stanley, Scott John D, Santana L Fernando, Liu Qinghang

机构信息

Department of Physiology and Biophysics, University of Washington, 1705 NE Pacific Street, Seattle, WA 98195, USA.

Department of Biology, Seattle University, 901 12th Ave., Seattle, WA 98122, USA.

出版信息

Cardiovasc Res. 2017 Feb;113(2):147-159. doi: 10.1093/cvr/cvw221. Epub 2016 Nov 17.

DOI:10.1093/cvr/cvw221
PMID:27856611
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5340143/
Abstract

AIMS

Impaired Cacycling and myocyte contractility are a hallmark of heart failure triggered by pathological stress such as hemodynamic overload. The A-Kinase anchoring protein AKAP150 has been shown to coordinate key aspects of adrenergic regulation of Cacycling and excitation-contraction in cardiomyocytes. However, the role of the AKAP150 signalling complexes in the pathogenesis of heart failure has not been investigated.

METHODS AND RESULTS

Here we examined how AKAP150 signalling complexes impact Cacycling, myocyte contractility, and heart failure susceptibility following pathological stress. We detected a significant reduction of AKAP150 expression in the failing mouse heart induced by pressure overload. Importantly, cardiac-specific AKAP150 knockout mice were predisposed to develop dilated cardiomyopathy with severe cardiac dysfunction and fibrosis after pressure overload. Loss of AKAP150 also promoted pathological remodelling and heart failure progression following myocardial infarction. However, ablation of AKAP150 did not affect calcineurin-nuclear factor of activated T cells signalling in cardiomyocytes or pressure overload- or agonist-induced cardiac hypertrophy. Immunoprecipitation studies showed that AKAP150 was associated with SERCA2, phospholamban, and ryanodine receptor-2, providing a targeted control of sarcoplasmic reticulum Caregulatory proteins. Mechanistically, loss of AKAP150 led to impaired Cacycling and reduced myocyte contractility reserve following adrenergic stimulation or pressure overload.

CONCLUSIONS

These findings define a critical role for AKAP150 in regulating Cacycling and myocardial ionotropy following pathological stress, suggesting the AKAP150 signalling pathway may serve as a novel therapeutic target for heart failure.

摘要

目的

钙循环受损和心肌细胞收缩力下降是由血流动力学过载等病理应激引发的心力衰竭的一个标志。A激酶锚定蛋白AKAP150已被证明可协调心肌细胞中钙循环的肾上腺素能调节和兴奋-收缩的关键方面。然而,AKAP150信号复合物在心力衰竭发病机制中的作用尚未得到研究。

方法与结果

在此,我们研究了AKAP150信号复合物在病理应激后如何影响钙循环、心肌细胞收缩力和心力衰竭易感性。我们检测到压力过载诱导的衰竭小鼠心脏中AKAP150表达显著降低。重要的是,心脏特异性AKAP150基因敲除小鼠在压力过载后易发生扩张型心肌病,并伴有严重的心功能障碍和纤维化。AKAP150的缺失还促进了心肌梗死后的病理重塑和心力衰竭进展。然而,AKAP150的缺失并不影响心肌细胞中钙调神经磷酸酶-活化T细胞核因子信号传导,也不影响压力过载或激动剂诱导的心脏肥大。免疫沉淀研究表明,AKAP150与肌浆网钙ATP酶2、受磷蛋白和雷诺丁受体2相关,从而对肌浆网钙调节蛋白进行靶向控制。从机制上讲,AKAP150的缺失导致肾上腺素能刺激或压力过载后钙循环受损和心肌细胞收缩力储备降低。

结论

这些发现确定了AKAP150在病理应激后调节钙循环和心肌离子otropy中的关键作用,表明AKAP150信号通路可能成为心力衰竭的一个新的治疗靶点。

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