应答调节蛋白介导的 MAPKKK 异源三聚体促进裂殖酵母 Spc1 MAPK 的应激信号传导。

Response regulator-mediated MAPKKK heteromer promotes stress signaling to the Spc1 MAPK in fission yeast.

机构信息

Graduate School of Biological Sciences, Nara Institute of Science and Technology, Ikoma, Nara, Japan.

出版信息

Mol Biol Cell. 2013 Apr;24(7):1083-92. doi: 10.1091/mbc.E12-10-0727. Epub 2013 Feb 6.

DOI:10.1091/mbc.E12-10-0727

PMID:23389634

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3608495/

Abstract

The Spc1 mitogen-activated protein kinase (MAPK) cascade in fission yeast is activated by two MAPK kinase kinase (MAPKKK) paralogues, Wis4 and Win1, in response to multiple forms of environmental stress. Previous studies identified Mcs4, a "response regulator" protein that associates with the MAPKKKs and receives peroxide stress signals by phosphorelay from the Mak2/Mak3 sensor histidine kinases. Here we show that Mcs4 has an unexpected, phosphorelay-independent function in promoting heteromer association between the Wis4 and Win1 MAPKKKs. Only one of the MAPKKKs in the heteromer complex needs to be catalytically active, but disturbing the integrity of the complex by mutations to Mcs4, Wis4, or Win1 results in reduced MAPKKK-MAPKK interaction and, consequently, compromised MAPK activation. The physical interaction among Mcs4, Wis4, and Win1 is constitutive and not responsive to stress stimuli. Therefore the Mcs4-MAPKKK heteromer complex might serve as a stable platform/scaffold for signaling proteins that convey input and output of different stress signals. The Wis4-Win1 complex discovered in fission yeast demonstrates that heteromer-mediated mechanisms are not limited to mammalian MAPKKKs.

摘要

裂殖酵母 Spc1 有丝分裂原激活蛋白激酶（MAPK）级联反应，由两个 MAPK 激酶激酶（MAPKKK）同工酶 Wis4 和 Win1 激活，以响应多种形式的环境压力。先前的研究鉴定了 Mcs4，一种“应答调节蛋白”，与 MAPKKKs 相关联，并通过从 Mak2/Mak3 传感器组氨酸激酶进行磷酸接力接收过氧化物应激信号。在这里，我们发现 Mcs4 在促进 Wis4 和 Win1 MAPKKK 同工酶之间的异源二聚体形成中具有出乎意料的、磷酸接力独立的功能。异源二聚体复合物中只有一个 MAPKKK 需要具有催化活性，但通过对 Mcs4、Wis4 或 Win1 的突变破坏复合物的完整性，会导致 MAPKKK-MAPKK 相互作用减少，从而导致 MAPK 激活受损。Mcs4、Wis4 和 Win1 之间的物理相互作用是组成型的，不受应激刺激的影响。因此，Mcs4-MAPKKK 异源二聚体复合物可能作为一个稳定的平台/支架，用于传递不同应激信号的输入和输出的信号蛋白。裂殖酵母中发现的 Wis4-Win1 复合物表明，异源二聚体介导的机制不仅限于哺乳动物 MAPKKKs。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d1fd/3608495/d262d5303751/1083fig1.jpg

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应答调节蛋白介导的 MAPKKK 异源三聚体促进裂殖酵母 Spc1 MAPK 的应激信号传导。

Response regulator-mediated MAPKKK heteromer promotes stress signaling to the Spc1 MAPK in fission yeast.

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