Cardiovascular Medicine, NHLI, Imperial College London, London, UK.
J Mol Cell Cardiol. 2010 Sep;49(3):380-9. doi: 10.1016/j.yjmcc.2010.05.009. Epub 2010 Jun 17.
We have investigated a transgenic mouse model of inherited dilated cardiomyopathy that stably expresses the ACTC E361G mutation at around 50% of total actin in the heart. F-actin isolated from ACTC E361G mouse hearts was incorporated into thin filaments with native human tropomyosin and troponin and compared with NTG mouse actin by in vitro motility assay. There was no significant difference in sliding speed, fraction of filaments motile or Ca(2+)-sensitivity (ratio EC(50) E361G/NTG=0.95+/-0.08). The Ca(2+)-sensitivity of force in skinned trabeculae from ACTC E361G mice was slightly higher than NTG (EC(50) E361G/NTG=0.78+/-0.04). The molecular phenotype was revealed when troponin was dephosphorylated; Ca(2+)-sensitivity of E361G-containing thin filaments was now lower than NTG (EC(50) E361G(dPTn)/NTG(dPTn)=2.15+/-0.09). We demonstrated that this was due to uncoupling of Ca(2+)-sensitivity from troponin I phosphorylation by comparing Ca(2+)-sensitivity of phosphorylated and dephosphorylated thin filaments. For NTG actin-containing thin filaments EC(50) native/dPTn=3.0+/-0.3 but for E361G-containing thin filaments EC(50) native/dPTn=1.04+/-0.07.We studied contractility in isolated myocytes and found no significant differences under basal conditions. We measured cardiac performance by cine-MRI, echocardiography and with a conductance catheter over a period of 4 to 18 months and found minimal systematic differences between NTG and ACTC E361G mice under basal conditions. However, the increase in septal thickening, ejection fraction, heart rate and cardiac output following dobutamine treatment was significantly less in ACTC E361G mice compared with NTG. We propose that the ACTC E361G mutation uncouples myofilament Ca(2+)-sensitivity from Troponin I phosphorylation and blunts the response to adrenergic stimulation, leading to a reduced cardiac reserve with consequent contractile dysfunction under stress, leading to dilated cardiomyopathy.
我们研究了一种遗传性扩张型心肌病的转基因小鼠模型,该模型在心脏中的肌动蛋白总含量中稳定表达约 50%的 ACTC E361G 突变。从 ACTC E361G 小鼠心脏中分离的 F-肌动蛋白与天然人原肌球蛋白和肌钙蛋白结合,并通过体外运动分析与 NTG 小鼠肌动蛋白进行比较。滑行速度、有丝分裂丝的分数或 Ca(2+)敏感性(EC(50) E361G/NTG=0.95+/-0.08)均无显著差异。ACTCE361G 小鼠去垢肌小节中的 Ca(2+)敏感性比 NTG 略高(EC(50) E361G/NTG=0.78+/-0.04)。当肌钙蛋白去磷酸化时,分子表型就会显现出来;现在,含有 E361G 的细肌丝的 Ca(2+)敏感性低于 NTG(EC(50) E361G(dPTn)/NTG(dPTn)=2.15+/-0.09)。我们通过比较磷酸化和去磷酸化的细肌丝的 Ca(2+)敏感性,证明这是由于肌钙蛋白 I 磷酸化与 Ca(2+)敏感性的解偶联所致。对于含有 NTG 肌动蛋白的细肌丝,EC(50) native/dPTn=3.0+/-0.3,但对于含有 E361G 的细肌丝,EC(50) native/dPTn=1.04+/-0.07。我们在分离的心肌细胞中研究了收缩性,在基础条件下没有发现显著差异。我们通过电影 MRI、超声心动图和电导导管在 4 至 18 个月期间测量心功能,发现 NTG 和 ACTC E361G 小鼠在基础条件下几乎没有系统差异。然而,与 NTG 相比,ACTCE361G 小鼠在给予多巴酚丁胺后室间隔增厚、射血分数、心率和心输出量的增加明显减少。我们提出,ACTC E361G 突变使肌球蛋白细丝的 Ca(2+)敏感性与肌钙蛋白 I 磷酸化解偶联,并使肾上腺素能刺激的反应迟钝,导致在应激下心脏储备减少,继而导致收缩功能障碍,从而导致扩张型心肌病。
