Intersubunit capture of regulatory segments is a component of cooperative CaMKII activation.

Luke H Chao, Patricia Pellicena, Sebastian Deindl, Lauren A Barclay, Howard Schulman, John Kuriyan
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引用次数: 115

Abstract

The dodecameric holoenzyme of calcium-calmodulin-dependent protein kinase II (CaMKII) responds to high-frequency Ca(2+) pulses to become Ca(2+) independent. A simple coincidence-detector model for Ca(2+)-frequency dependency assumes noncooperative activation of kinase domains. We show that activation of CaMKII by Ca(2+)-calmodulin is cooperative, with a Hill coefficient of approximately 3.0, implying sequential kinase-domain activation beyond dimeric units. We present data for a model in which cooperative activation includes the intersubunit 'capture' of regulatory segments. Such a capture interaction is seen in a crystal structure that shows extensive contacts between the regulatory segment of one kinase and the catalytic domain of another. These interactions are mimicked by a natural inhibitor of CaMKII. Our results show that a simple coincidence-detection model cannot be operative and point to the importance of kinetic dissection of the frequency-response mechanism in future experiments.

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调控片段的亚基间捕获是CaMKII协同激活的一个组成部分。
钙-钙调素依赖性蛋白激酶II (CaMKII)的十二聚体全酶响应高频Ca(2+)脉冲,成为Ca(2+)独立。一个简单的Ca(2+)频率依赖的巧合检测器模型假设激酶结构域的非合作激活。我们发现Ca(2+)-钙调素对CaMKII的激活是协同的,Hill系数约为3.0,这意味着在二聚体单元之外,激酶结构域的顺序激活。我们提供了一个模型的数据,在这个模型中,合作激活包括调控片段的亚基间“捕获”。这种捕获相互作用在晶体结构中可以看到,它显示了一个激酶的调节部分和另一个激酶的催化结构域之间的广泛接触。这些相互作用是由CaMKII的天然抑制剂模拟的。我们的研究结果表明,一个简单的重合检测模型是不可行的,并指出在未来的实验中对频率响应机制进行动力学解剖的重要性。
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