所有具有内在活性的 Erk1/2 突变体都会使苏氨酸 207/188 自动磷酸化，而苏氨酸 207/188 是 TEY 矩阵磷酸化的合理调节因子。

IF 4 2区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Journal of Biological Chemistry Pub Date : 2025-04-11 DOI:10.1016/j.jbc.2025.108509

Alexey Baskin,Nadine Soudah,Nechama Gilad,Neriah Halevy,Ilona Darlyuk-Saadon,Hanan Schoffman,David Engelberg

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引用次数: 0

摘要

细胞外活化激酶1和2 （Erk1/2）在位于激活环的TEY基序上双磷酸化时具有催化活性。在人类心脏肥厚患者中，Erk1/2在另一个激活环的残基T207/188上被磷酸化。在R84/65位点突变的Erk1/2的内在活性变体也在T207/188位点（自动）磷酸化。目前尚不清楚T207/188磷酸化是否仅限于这些病例，也不清楚它如何影响Erks的活性。我们报道T207/188磷酸化并不罕见，因为我们发现：1)所有已知的自动激活Erk1/2变异都在T207/188上磷酸化。2)它发生在各种细胞系和小鼠组织中。3)骨骼肌萎缩或肌病患者中含量极高。我们认为T207/188控制着TEY基序的磷酸化许可性，因为T207/188突变的Erk1/2和酵母Erk/Mpk1分别在HEK293或酵母细胞中表达时有效地双磷酸化。t207 /188突变的Mpk1在mek敲除的细胞中没有被tey磷酸化，这表明其在野生型细胞中的磷酸化增强依赖于mek。因此，当T207/188突变的Erk1/2和Mpk1招募MEKs时，T207/188的作用是阻碍MEKs磷酸化Erks的能力。T207/188也会阻碍自磷酸化，因为在T188突变的重组Erk2会自发地自磷酸化，尽管只在Y185上发生。T207/188在调节激活环磷酸化中的作用可能与大多数丝氨酸/苏氨酸激酶相同，因为86%的丝氨酸/苏氨酸激酶（在人类激酶组中）具有T207/188同源物，其中160个已被报道在该残基上磷酸化。

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All intrinsically active Erk1/2 mutants autophosphorylate Threonine207/188, a plausible regulator of the TEY motif phosphorylation.

The extracellular-activated kinases 1 & 2 (Erk1/2) are catalytically active when dually phosphorylated on a TEY motif located at the activation loop. In human patients with cardiac hypertrophy Erk1/2 are phosphorylated on yet another activation loop's residue, T207/188. Intrinsically active variants of Erk1/2, mutated at R84/65, are also (auto)phosphorylated on T207/188. It is not known whether T207/188 phosphorylation is restricted to these cases nor how it affects Erks' activity. We report that T207/188 phosphorylation is not rare, as we found that: 1) All known auto-activated Erk1/2 variants are phosphorylated on T207/188. 2) It occurs in various cell lines and mouse tissues. 3) It is extremely high in patients with skeletal muscle atrophies or myopathies. We propose that T207/188 controls the permissiveness of the TEY motif for phosphorylation because T207/188-mutated Erk1/2 and the yeast Erk/Mpk1 were efficiently dually phosphorylated when expressed in HEK293 or yeast cells, respectively. The T207/188-mutated Mpk1 was not TEY-phosphorylated in cells knocked out for MEKs, suggesting that its enhanced phosphorylation in wildtype cells is MEK-dependent. Thus, as T207/188-mutated Erk1/2 and Mpk1 recruit MEKs the role of T207/188 is to impede MEKs' ability to phosphorylate Erks. T207/188 also impedes autophosphorylation as recombinant Erk2 mutated at T188 is spontaneously autophosphorylated, although exclusively on Y185. The role of T207/188 in regulating activation loop phosphorylation may be common to most Ser/Thr kinases as 86% of them (in the human kinome) possess T207/188 orthologs, and 160 of them were already reported to be phosphorylated on this residue.

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Journal of Biological Chemistry Biochemistry, Genetics and Molecular Biology-Biochemistry

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4.20%

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1233

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