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鉴定出波形蛋白在通过调节血影蛋白-肌动蛋白相互作用来调节红细胞膜功能方面的新作用。

Identification of a novel role for dematin in regulating red cell membrane function by modulating spectrin-actin interaction.

机构信息

Department of Biochemistry, School of Medicine, Tokyo Women's Medical University, 8-1 Kawada-cho, Shinjuku 162-8666, Tokyo, Japan.

New York Blood Center, New York, New York 10065.

出版信息

J Biol Chem. 2012 Oct 12;287(42):35244-35250. doi: 10.1074/jbc.M111.305441. Epub 2012 Aug 26.

DOI:10.1074/jbc.M111.305441
PMID:22927433
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3471709/
Abstract

The membrane skeleton plays a central role in maintaining the elasticity and stability of the erythrocyte membrane, two biophysical features critical for optimal functioning and survival of red cells. Many constituent proteins of the membrane skeleton are phosphorylated by various kinases, and phosphorylation of β-spectrin by casein kinase and of protein 4.1R by PKC has been documented to modulate erythrocyte membrane mechanical stability. In this study, we show that activation of endogenous PKA by cAMP decreases membrane mechanical stability and that this effect is mediated primarily by phosphorylation of dematin. Co-sedimentation assay showed that dematin facilitated interaction between spectrin and F-actin, and phosphorylation of dematin by PKA markedly diminished this activity. Quartz crystal microbalance measurement revealed that purified dematin specifically bound the tail region of the spectrin dimer in a saturable manner with a submicromolar affinity. Pulldown assay using recombinant spectrin fragments showed that dematin, but not phospho-dematin, bound to the tail region of the spectrin dimer. These findings imply that dematin contributes to the maintenance of erythrocyte membrane mechanical stability by facilitating spectrin-actin interaction and that phosphorylation of dematin by PKA can modulate these effects. In this study, we have uncovered a novel functional role for dematin in regulating erythrocyte membrane function.

摘要

膜骨架在维持红细胞膜的弹性和稳定性方面起着核心作用,这两个生物物理特征对红细胞的最佳功能和生存至关重要。膜骨架的许多组成蛋白被各种激酶磷酸化,已经有文献证明β- spectrin 被酪蛋白激酶和蛋白 4.1R 磷酸化可以调节红细胞膜的机械稳定性。在本研究中,我们表明,cAMP 激活内源性 PKA 会降低膜的机械稳定性,而这种效应主要是通过肌动蛋白磷酸化介导的。共沉淀实验表明,肌动蛋白促进 spectrin 和 F-actin 的相互作用,PKA 对肌动蛋白的磷酸化显著降低了这一活性。石英晶体微天平测量显示,纯化的肌动蛋白以亚微摩尔亲和力特异性地结合 spectrin 二聚体的尾部区域。使用重组 spectrin 片段的下拉实验表明,肌动蛋白而非磷酸化肌动蛋白与 spectrin 二聚体的尾部区域结合。这些发现表明,肌动蛋白通过促进 spectrin-actin 相互作用来维持红细胞膜的机械稳定性,而 PKA 对肌动蛋白的磷酸化可以调节这些作用。在这项研究中,我们揭示了肌动蛋白在调节红细胞膜功能方面的一个新的功能作用。

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Tropomodulin 1-null mice have a mild spherocytic elliptocytosis with appearance of tropomodulin 3 in red blood cells and disruption of the membrane skeleton.Tropomodulin 1 基因敲除小鼠表现为温和的球形红细胞性椭圆形红细胞增多症,其红细胞中出现 tropomodulin 3,同时细胞膜骨架遭到破坏。
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