L3环和C末端磷酸化共同决定Smad蛋白三聚化。

The L3 loop and C-terminal phosphorylation jointly define Smad protein trimerization.

作者信息

Chacko B M, Qin B, Correia J J, Lam S S, de Caestecker M P, Lin K

机构信息

Department of Biochemistry and Molecular Pharmacology, University of Massachusetts Medical School, 55 Lake Ave. North, Worcester, Massachusetts 01655, USA.

出版信息

Nat Struct Biol. 2001 Mar;8(3):248-53. doi: 10.1038/84995.

DOI:10.1038/84995

PMID:11224571

Abstract

Smad proteins mediate the transforming growth factor beta responses. C-terminal phosphorylation of R-Smads leads to the recruitment of Smad4 and the formation of active signaling complexes. We investigated the mechanism of phosphorylation-induced Smad complex formation with an activating pseudo-phosphorylated Smad3. Pseudo-phosphorylated Smad3 has a greater propensity to homotrimerize, and recruits Smad4 to form a heterotrimer containing two Smad3 and one Smad4. The trimeric interaction is mediated through conserved interfaces to which tumorigenic mutations map. Furthermore, a conserved Arg residue within the L3 loop, located near the C-terminal phosphorylation sites of the neighboring subunit, is essential for trimerization. We propose that the phosphorylated C-terminal residues interact with the L3 loop of the neighboring subunit to stabilize the trimer interaction.

摘要

Smad蛋白介导转化生长因子β反应。R-Smads的C末端磷酸化导致Smad4的募集并形成活性信号复合物。我们用一种激活型假磷酸化Smad3研究了磷酸化诱导的Smad复合物形成机制。假磷酸化Smad3具有更强的同源三聚化倾向，并募集Smad4形成包含两个Smad3和一个Smad4的异源三聚体。三聚体相互作用通过致癌突变所定位的保守界面介导。此外，位于相邻亚基C末端磷酸化位点附近的L3环内的一个保守精氨酸残基对三聚化至关重要。我们提出，磷酸化的C末端残基与相邻亚基的L3环相互作用以稳定三聚体相互作用。

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L3环和C末端磷酸化共同决定Smad蛋白三聚化。

The L3 loop and C-terminal phosphorylation jointly define Smad protein trimerization.

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