通过转角基序磷酸化激活生长因子激活的AGC激酶的机制。

Mechanism for activation of the growth factor-activated AGC kinases by turn motif phosphorylation.

作者信息

Hauge Camilla, Antal Torben L, Hirschberg Daniel, Doehn Ulrik, Thorup Katrine, Idrissova Leila, Hansen Klaus, Jensen Ole N, Jørgensen Thomas J, Biondi Ricardo M, Frödin Morten

机构信息

Biotech Research and Innovation Centre, Ole Maaløes vej, Copenhagen N, Denmark.

出版信息

EMBO J. 2007 May 2;26(9):2251-61. doi: 10.1038/sj.emboj.7601682. Epub 2007 Apr 19.

DOI:10.1038/sj.emboj.7601682

PMID:17446865

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1864980/

Abstract

The growth factor/insulin-stimulated AGC kinases share an activation mechanism based on three phosphorylation sites. Of these, only the role of the activation loop phosphate in the kinase domain and the hydrophobic motif (HM) phosphate in a C-terminal tail region are well characterized. We investigated the role of the third, so-called turn motif phosphate, also located in the tail, in the AGC kinases PKB, S6K, RSK, MSK, PRK and PKC. We report cooperative action of the HM phosphate and the turn motif phosphate, because it binds a phosphoSer/Thr-binding site above the glycine-rich loop within the kinase domain, promoting zipper-like association of the tail with the kinase domain, serving to stabilize the HM in its kinase-activating binding site. We present a molecular model for allosteric activation of AGC kinases by the turn motif phosphate via HM-mediated stabilization of the alphaC helix. In S6K and MSK, the turn motif phosphate thereby also protects the HM from dephosphorylation. Our results suggest that the mechanism described is a key feature in activation of upto 26 human AGC kinases.

摘要

生长因子/胰岛素刺激的AGC激酶基于三个磷酸化位点共享一种激活机制。其中，只有激酶结构域中激活环磷酸化位点以及C末端尾部区域中疏水基序（HM）磷酸化位点的作用得到了充分表征。我们研究了同样位于尾部的第三个磷酸化位点，即所谓的转角基序磷酸化位点，在AGC激酶PKB、S6K、RSK、MSK、PRK和PKC中的作用。我们报告了HM磷酸化位点和转角基序磷酸化位点的协同作用，因为它结合了激酶结构域内富含甘氨酸环上方的一个磷酸化丝氨酸/苏氨酸结合位点，促进尾部与激酶结构域形成拉链样结合，从而使HM稳定在其激酶激活结合位点。我们提出了一个分子模型，说明转角基序磷酸化位点通过HM介导的αC螺旋稳定作用对AGC激酶进行变构激活。在S6K和MSK中，转角基序磷酸化位点还能保护HM不被去磷酸化。我们的结果表明，所描述的机制是多达26种人类AGC激酶激活过程中的一个关键特征。

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