一种用于维持突触后致密区中CaMKII记忆开关“开启状态”的结构机制。

A structural mechanism for maintaining the 'on-state' of the CaMKII memory switch in the post-synaptic density.

作者信息

Mullasseril Praseeda, Dosemeci Ayse, Lisman John E, Griffith Leslie C

机构信息

Department of Biology, Brandeis University, Waltham, Massachusetts, USA.

出版信息

J Neurochem. 2007 Oct;103(1):357-64. doi: 10.1111/j.1471-4159.2007.04744.x.

DOI:10.1111/j.1471-4159.2007.04744.x

PMID:17877639

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2665908/

Abstract

Ca(2+)/calmodulin-dependent protein kinase II (CaMKII) is activated by Ca(2+) entry into neurons. Autophosphorylation of T286 is of special importance because it makes the enzyme active in the absence of Ca(2+), providing a biochemical memory that is critical for plasticity. To understand the factors controlling the duration of this state of CaMKII, we studied dephosphorylation of CaMKII in the post-synaptic density (PSD), a structure that defines a neuronal subcompartment critical for plasticity. We found that PSD-resident PP1 can dephosphorylate many sites on CaMKII, but not the T286 site that produces Ca(2+)-independent activity. This, together with previous work showing that soluble PP2A cannot dephosphorylate PSD CaMKII, provides a novel explanation for the in vivo persistence of T286 phosphorylation: after activated CaMKII translocates from the cytoplasm to the PSD, structural constraints prevent phosphatases from dephosphorylating T286. These results also suggest that the PSD is more than a simple scaffold for synaptic proteins; it may act to regulate the activity of proteins by positioning them in orientations that either prevent or favor specific biochemical reactions.

摘要

钙离子/钙调蛋白依赖性蛋白激酶II（CaMKII）通过钙离子进入神经元而被激活。T286位点的自身磷酸化尤为重要，因为它使该酶在没有钙离子的情况下仍保持活性，从而提供了一种对可塑性至关重要的生化记忆。为了了解控制CaMKII这种状态持续时间的因素，我们研究了突触后致密区（PSD）中CaMKII的去磷酸化情况，PSD是一个对可塑性至关重要的神经元亚区结构。我们发现，位于PSD的蛋白磷酸酶1（PP1）可以使CaMKII上的许多位点去磷酸化，但不能使产生不依赖钙离子活性的T286位点去磷酸化。这与之前的研究结果（可溶性蛋白磷酸酶2A（PP2A）不能使PSD中的CaMKII去磷酸化）共同为T286磷酸化在体内的持续存在提供了一种新的解释：激活后的CaMKII从细胞质转移到PSD后，结构限制使得磷酸酶无法使T286去磷酸化。这些结果还表明，PSD不仅仅是突触蛋白的简单支架；它可能通过将蛋白质定位在阻止或促进特定生化反应的方向上来调节蛋白质的活性。

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