MK2和MK5在cAMP/PKA-和应激/ p38mapk诱导的热休克蛋白27磷酸化中的不同作用。

Q2 Biochemistry, Genetics and Molecular Biology Journal of Molecular Signaling Pub Date : 2011-05-16 DOI:10.1186/1750-2187-6-4
Alexey Shiryaev, Gianina Dumitriu, Ugo Moens
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引用次数: 23

摘要

背景:经典的哺乳动物有丝分裂原活化蛋白激酶(MAPK)途径由三个连续的磷酸化事件级联组成,导致各种底物的磷酸化,包括另一类被称为MAPK活化蛋白激酶(MAPKAPKs)的蛋白激酶。MAPKAPKs MK2、MK3和MK5是密切相关的,但MK2和MK3是p38MAPK途径的主要下游靶点,而MK5可以被非典型MAPK ERK3和ERK4、蛋白激酶A (PKA)激活,也可能被p38MAPK激活。MK2、MK3和MK5可以磷酸化共同底物小热休克蛋白27 (HSP27),这种修饰调节HSP27在肌动蛋白聚合中的作用。应激和cAMP升高刺激均可引起f -肌动蛋白重构,但体内p38MAPK-MK2在应激触发的HSP27磷酸化和肌动蛋白重组中的作用已得到证实,而MK2是否参与cAMP/ pka诱导的f -肌动蛋白重排尚不清楚。另一方面,MK5可以磷酸化HSP27并以cAMP/ pka依赖的方式引起细胞骨架变化,但其作为HSP27激酶在应激诱导的f -肌动蛋白重塑中的作用尚存在争议。因此,我们想要研究MK2和MK5在应激和pka诱导的HSP27磷酸化中的作用。结果:使用HEK293细胞,我们发现MK2、MK3和MK5在这些细胞中表达,但MK3的蛋白水平非常适中。应激和camp升高的刺激,以及活性MKK6 + p38MAPK或PKA催化亚基的异位表达可触发HSP27磷酸化,而p38MAPK和PKA的特异性抑制剂可阻止这种磷酸化。MK2的缺失,而MK3和MK5的缺失,降低了应激诱导的HSP27磷酸化,而MK5的缺失只降低了pka诱导的phosphoHSP27水平。刺激p38MAPK,而不是PKA通路,引起MK2的激活。结论:我们的研究结果表明,在HEK293细胞中,MK2是参与应激诱导的HSP27磷酸化的HSP27激酶,而不是camp诱导的HSP27磷酸化,而MK5似乎是唯一一个在PKA通路刺激下介导HSP27磷酸化的MK。因此,尽管对HSP27具有相同的底物特异性,但MK2和MK5参与不同的信号通路,导致肌动蛋白重组。
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Distinct roles of MK2 and MK5 in cAMP/PKA- and stress/p38MAPK-induced heat shock protein 27 phosphorylation.

Background: Classical mammalian mitogen-activated protein kinase (MAPK) pathways consist of a cascade of three successive phosphorylation events resulting in the phosphorylation of a variety of substrates, including another class of protein kinases referred to as MAPK-activating protein kinases (MAPKAPKs). The MAPKAPKs MK2, MK3 and MK5 are closely related, but MK2 and MK3 are the major downstream targets of the p38MAPK pathway, while MK5 can be activated by the atypical MAPK ERK3 and ERK4, protein kinase A (PKA), and maybe p38MAPK. MK2, MK3, and MK5 can phosphorylate the common substrate small heat shock protein 27 (HSP27), a modification that regulates the role of HSP27 in actin polymerization. Both stress and cAMP elevating stimuli can cause F-actin remodeling, but whereas the in vivo role of p38MAPK-MK2 in stress-triggered HSP27 phosphorylation and actin reorganization is well established, it is not known whether MK2 is involved in cAMP/PKA-induced F-actin rearrangements. On the other hand, MK5 can phosphorylate HSP27 and cause cytoskeletal changes in a cAMP/PKA-dependent manner, but its role as HSP27 kinase in stress-induced F-actin remodeling is disputed. Therefore, we wanted to investigate the implication of MK2 and MK5 in stress- and PKA-induced HSP27 phosphorylation.

Results: Using HEK293 cells, we show that MK2, MK3, and MK5 are expressed in these cells, but MK3 protein levels are very moderate. Stress- and cAMP-elevating stimuli, as well as ectopic expression of active MKK6 plus p38MAPK or the catalytic subunit of PKA trigger HSP27 phosphorylation, and specific inhibitors of p38MAPK and PKA prevent this phosphorylation. Depletion of MK2, but not MK3 and MK5 diminished stress-induced HSP27 phosphorylation, while only knockdown of MK5 reduced PKA-induced phosphoHSP27 levels. Stimulation of the p38MAPK, but not the PKA pathway, caused activation of MK2.

Conclusion: Our results suggest that in HEK293 cells MK2 is the HSP27 kinase engaged in stress-induced, but not cAMP-induced phosphorylation of HSP27, while MK5 seems to be the sole MK to mediate HSP27 phosphorylation in response to stimulation of the PKA pathway. Thus, despite the same substrate specificity towards HSP27, MK2 and MK5 are implicated in different signaling pathways causing actin reorganization.

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Journal of Molecular Signaling
Journal of Molecular Signaling Biochemistry, Genetics and Molecular Biology-Biochemistry
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期刊介绍: Journal of Molecular Signaling is an open access, peer-reviewed online journal that encompasses all aspects of molecular signaling. Molecular signaling is an exponentially growing field that encompasses different molecular aspects of cell signaling underlying normal and pathological conditions. Specifically, the research area of the journal is on the normal or aberrant molecular mechanisms involving receptors, G-proteins, kinases, phosphatases, and transcription factors in regulating cell proliferation, differentiation, apoptosis, and oncogenesis in mammalian cells. This area also covers the genetic and epigenetic changes that modulate the signaling properties of cells and the resultant physiological conditions.
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