Pragmin 假激酶的二聚化调节蛋白质酪氨酸磷酸化。

Dimerization of the Pragmin Pseudo-Kinase Regulates Protein Tyrosine Phosphorylation.

机构信息

CRBM, "Equipe Labellisée Ligue Contre le Cancer", Univ Montpellier, CNRS, 34000 Montpellier, France.

CBS, Univ Montpellier, CNRS, INSERM, 34090 Montpellier, France.

出版信息

Structure. 2018 Apr 3;26(4):545-554.e4. doi: 10.1016/j.str.2018.01.017. Epub 2018 Mar 1.

DOI:10.1016/j.str.2018.01.017

PMID:29503074

Abstract

The pseudo-kinase and signaling protein Pragmin has been linked to cancer by regulating protein tyrosine phosphorylation via unknown mechanisms. Here we present the crystal structure of the Pragmin 906-1,368 amino acid C terminus, which encompasses its kinase domain. We show that Pragmin contains a classical protein-kinase fold devoid of catalytic activity, despite a conserved catalytic lysine (K997). By proteomics, we discovered that this pseudo-kinase uses the tyrosine kinase CSK to induce protein tyrosine phosphorylation in human cells. Interestingly, the protein-kinase domain is flanked by N- and C-terminal extensions forming an original dimerization domain that regulates Pragmin self-association and stimulates CSK activity. A1329E mutation in the C-terminal extension destabilizes Pragmin dimerization and reduces CSK activation. These results reveal a dimerization mechanism by which a pseudo-kinase can induce protein tyrosine phosphorylation. Further sequence-structure analysis identified an additional member (C19orf35) of the superfamily of dimeric Pragmin/SgK269/PEAK1 pseudo-kinases.

摘要

假激酶和信号蛋白 Pragmin 通过未知机制调节蛋白酪氨酸磷酸化与癌症有关。在这里，我们展示了 Pragmin 906-1368 个氨基酸 C 末端的晶体结构，其中包含其激酶结构域。我们表明，Pragmin 含有一个经典的蛋白激酶结构域，尽管存在保守的催化赖氨酸（K997），但缺乏催化活性。通过蛋白质组学，我们发现这种假激酶使用酪氨酸激酶 CSK 在人类细胞中诱导蛋白酪氨酸磷酸化。有趣的是，蛋白激酶结构域被 N 端和 C 端延伸包围，形成一个独特的二聚化结构域，调节 Pragmin 的自组装并刺激 CSK 的活性。C 端延伸中的 A1329E 突变会破坏 Pragmin 的二聚化并降低 CSK 的激活。这些结果揭示了一种假激酶可以诱导蛋白酪氨酸磷酸化的二聚化机制。进一步的序列-结构分析确定了二聚体 Pragmin/SgK269/PEAK1 假激酶超家族的另一个成员（C19orf35）。

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Pragmin 假激酶的二聚化调节蛋白质酪氨酸磷酸化。

Dimerization of the Pragmin Pseudo-Kinase Regulates Protein Tyrosine Phosphorylation.

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