Protein Kinase A Phosphorylates Titin’s Cardiac-Specific N2B Domain and Reduces Passive Tension in Rat Cardiac Myocytes

R. Yamasaki, Yiming Wu, M. Mcnabb, M. Greaser, S. Labeit, H. Granzier
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引用次数: 307

Abstract

&bgr;-Adrenergic stimulation of cardiac muscle activates protein kinase A (PKA), which is known to phosphorylate proteins on the thin and thick filaments of the sarcomere. Cardiac muscle sarcomeres contain a third filament system composed of titin, and here we demonstrate that titin is also phosphorylated by the &bgr;-adrenergic pathway. Titin phosphorylation was observed after &bgr;-receptor stimulation of intact cardiac myocytes and incubation of skinned cardiac myocytes with PKA. Mechanical experiments with isolated myocytes revealed that PKA significantly reduces passive tension. In vitro phosphorylation of recombinant titin fragments and immunoelectron microscopy suggest that PKA targets a subdomain of the elastic segment of titin, referred to as the N2B spring element. The N2B spring element is expressed only in cardiac titins, in which it plays an important role in determining the level of passive tension. Because titin-based passive tension is a determinant of diastolic function, these results suggest that titin phosphorylation may modulate cardiac function in vivo.
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蛋白激酶A磷酸化Titin的心脏特异性N2B结构域并降低大鼠心肌细胞的被动张力
-心肌的肾上腺素能刺激激活蛋白激酶A (PKA),已知其磷酸化肌节细丝和粗丝上的蛋白。心肌肌节含有由titin组成的第三个纤维系统,在这里我们证明了titin也可以通过肾上腺素能途径磷酸化。完整心肌细胞&bgr;-受体刺激和PKA皮肤心肌细胞孵育后,观察到Titin磷酸化。对分离的肌细胞进行力学实验,发现PKA能显著降低被动张力。重组titin片段的体外磷酸化和免疫电镜显示,PKA靶向titin弹性片段的一个亚结构域,称为N2B弹簧元件。N2B弹簧元件仅在心脏titin中表达,它在决定被动张力水平方面起重要作用。由于基于titin的被动张力是舒张功能的决定因素,这些结果表明titin磷酸化可能在体内调节心功能。
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