Phosphorylation of the minimal inhibitory region at the C-terminus of caldesmon alters its structural and actin binding properties

Valerie B. Patchell , Alexander V. Vorotnikov , Yuan Gao , Douglas G. Low , James S. Evans , Abdellatif Fattoum , Mohammed El-Mezgueldi , Steven B. Marston , Barry A. Levine
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引用次数: 20

Abstract

Caldesmon is an inhibitory protein believed to be involved in the regulation of thin filament activity in smooth muscles and is a major cytoplasmic substrate for MAP kinase. NMR spectroscopy shows that the actin binding properties of the minimal inhibitory region of caldesmon, residues 750–779, alter upon MAP kinase phosphorylation of Ser-759, a residue not involved in actin binding. This phosphorylation leads to markedly diminished actin affinity as a result of the loss of interaction at one of the two sites that bind to F-actin. The structural basis for the altered interaction is identified from the observation that phosphorylation destabilises a turn segment linking the two actin binding sites and thereby results in the randomisation of their relative disposition. This modulatory influence of Ser-759 phosphorylation is not merely a function of the bulkiness of the covalent modification since the stability of the turn region is observed to be sensitive to the ionisation state of the phosphate group. The data are discussed in the context of the inhibitory association of the C-terminal domain of caldesmon with F-actin.

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caldesmon c端最小抑制区域的磷酸化改变了其结构和肌动蛋白结合特性
Caldesmon是一种抑制蛋白,被认为参与平滑肌细丝活性的调节,是MAP激酶的主要细胞质底物。核磁共振光谱显示,caldesmon最小抑制区750-779残基的肌动蛋白结合特性随着MAP激酶磷酸化Ser-759而改变,Ser-759是一个不参与肌动蛋白结合的残基。由于与f -肌动蛋白结合的两个位点之一的相互作用丧失,这种磷酸化导致肌动蛋白亲和力显著降低。相互作用改变的结构基础是通过观察磷酸化破坏了连接两个肌动蛋白结合位点的旋转片段的稳定性,从而导致它们相对配置的随机化。Ser-759磷酸化的这种调节影响不仅仅是共价修饰的体积的功能,因为观察到转折区域的稳定性对磷酸基团的电离状态很敏感。这些数据在caldesmon的c端结构域与F-actin的抑制关联的背景下进行了讨论。
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