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家族性扩张型心肌病突变使肌钙蛋白 I 磷酸化与肌球蛋白纤维 Ca²⁺敏感性的变化解耦。

Familial dilated cardiomyopathy mutations uncouple troponin I phosphorylation from changes in myofibrillar Ca²⁺ sensitivity.

机构信息

Myocardial Function, NHLI, Imperial College London, London, W12 0NN, UK.

出版信息

Cardiovasc Res. 2013 Jul 1;99(1):65-73. doi: 10.1093/cvr/cvt071. Epub 2013 Mar 27.

DOI:10.1093/cvr/cvt071
PMID:23539503
Abstract

AIMS

The pure form of familial dilated cardiomyopathy (DCM) is mainly caused by mutations in genes encoding sarcomeric proteins. Previous measurements using recombinant proteins suggested that DCM mutations in thin filament proteins decreased myofibrillar Ca(2+) sensitivity, but exceptions were reported. We re-investigated the molecular mechanism of familial DCM using native proteins.

METHODS AND RESULTS

We used the quantitative in vitro motility assay and native troponin and tropomyosin to study DCM mutations in troponin I, troponin T, and α-tropomyosin. Four mutations reduced myofilament Ca(2+) sensitivity, but one mutation (TPM1 E54K) did not alter Ca(2+) sensitivity and another (TPM1 D230N) increased Ca(2+) sensitivity. In thin filaments from normal human and mouse heart, protein kinase A (PKA) phosphorylation of troponin I caused a two- to three-fold decrease in myofibrillar Ca(2+) sensitivity. However, Ca(2+) sensitivity did not change with the level of troponin I phosphorylation in any of the DCM-mutant containing thin filaments (E40K, E54K, and D230N in α-tropomyosin; R141W and ΔK210 in cardiac troponin T; K36Q in cardiac troponin I; G159D in cardiac troponin C, and E361G in cardiac α-actin). This 'uncoupling' was observed with native mutant protein from human and mouse heart and with recombinant mutant protein expressed in baculovirus/Sf9 systems. Uncoupling was independent of the fraction of mutated protein present above 0.55.

CONCLUSION

We conclude that DCM-causing mutations in thin filament proteins abolish the relationship between myofilament Ca(2+) sensitivity and troponin I phosphorylation by PKA. We propose that this blunts the response to β-adrenergic stimulation and could be the cause of DCM in the long term.

摘要

目的

家族性扩张型心肌病(DCM)的纯形式主要由编码肌节蛋白的基因突变引起。以前使用重组蛋白的测量结果表明,细肌丝蛋白中的 DCM 突变降低了肌球蛋白纤维对 Ca(2+)的敏感性,但也有例外报告。我们使用天然蛋白重新研究了家族性 DCM 的分子机制。

方法和结果

我们使用定量体外运动分析和天然肌钙蛋白和原肌球蛋白研究了肌钙蛋白 I、肌钙蛋白 T 和 α-原肌球蛋白中的 DCM 突变。四种突变降低了肌球蛋白纤维对 Ca(2+)的敏感性,但有一种突变(TPM1 E54K)没有改变 Ca(2+)敏感性,另一种突变(TPM1 D230N)增加了 Ca(2+)敏感性。在正常人心肌和鼠心肌的细肌丝中,肌钙蛋白 I 的蛋白激酶 A(PKA)磷酸化导致肌球蛋白纤维对 Ca(2+)的敏感性降低两到三倍。然而,在任何含有 DCM 突变的细肌丝(α-原肌球蛋白中的 E40K、E54K 和 D230N;心脏肌钙蛋白 T 中的 R141W 和 ΔK210;心脏肌钙蛋白 I 中的 K36Q;心脏肌钙蛋白 C 中的 G159D 和心脏肌球蛋白 C 中的 E361G)中,肌球蛋白纤维的 Ca(2+)敏感性都没有随肌钙蛋白 I 磷酸化水平的变化而改变。这种“解偶联”在来自人心脏和鼠心脏的天然突变蛋白以及在杆状病毒/Sf9 系统中表达的重组突变蛋白中都有观察到。解偶联与 0.55 以上存在的突变蛋白比例无关。

结论

我们得出结论,细肌丝蛋白中的 DCM 致病突变消除了肌球蛋白纤维对 Ca(2+)敏感性和 PKA 肌钙蛋白 I 磷酸化之间的关系。我们提出,这削弱了对β-肾上腺素刺激的反应,这可能是 DCM 长期存在的原因。

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