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7-甲基鸟苷二磷酸(m(7)GDP)不会被水解,但会被脱帽酶清除物(DcpS)酶强烈结合,并强烈抑制其活性。

7-methylguanosine diphosphate (m(7)GDP) is not hydrolyzed but strongly bound by decapping scavenger (DcpS) enzymes and potently inhibits their activity.

机构信息

Division of Biophysics, Institute of Experimental Physics, Faculty of Physics, University of Warsaw, Warsaw 02-089, Poland.

出版信息

Biochemistry. 2012 Oct 9;51(40):8003-13. doi: 10.1021/bi300781g. Epub 2012 Sep 25.

DOI:10.1021/bi300781g
PMID:22985415
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3495079/
Abstract

Decapping scavenger (DcpS) enzymes catalyze the cleavage of a residual cap structure following 3' → 5' mRNA decay. Some previous studies suggested that both m(7)GpppG and m(7)GDP were substrates for DcpS hydrolysis. Herein, we show that mononucleoside diphosphates, m(7)GDP (7-methylguanosine diphosphate) and m(3)(2,2,7)GDP (2,2,7-trimethylguanosine diphosphate), resulting from mRNA decapping by the Dcp1/2 complex in the 5' → 3' mRNA decay, are not degraded by recombinant DcpS proteins (human, nematode, and yeast). Furthermore, whereas mononucleoside diphosphates (m(7)GDP and m(3)(2,2,7)GDP) are not hydrolyzed by DcpS, mononucleoside triphosphates (m(7)GTP and m(3)(2,2,7)GTP) are, demonstrating the importance of a triphosphate chain for DcpS hydrolytic activity. m(7)GTP and m(3)(2,2,7)GTP are cleaved at a slower rate than their corresponding dinucleotides (m(7)GpppG and m(3)(2,2,7)GpppG, respectively), indicating an involvement of the second nucleoside for efficient DcpS-mediated digestion. Although DcpS enzymes cannot hydrolyze m(7)GDP, they have a high binding affinity for m(7)GDP and m(7)GDP potently inhibits DcpS hydrolysis of m(7)GpppG, suggesting that m(7)GDP may function as an efficient DcpS inhibitor. Our data have important implications for the regulatory role of m(7)GDP in mRNA metabolic pathways due to its possible interactions with different cap-binding proteins, such as DcpS or eIF4E.

摘要

脱帽酶(DcpS)能够催化 3' → 5' mRNA 降解过程中残留帽结构的切割。一些先前的研究表明,m(7)GpppG 和 m(7)GDP 都是 DcpS 水解的底物。在此,我们表明,来自 Dcp1/2 复合物在 5' → 3' mRNA 降解过程中引发的 mRNA 脱帽作用的单核苷酸二磷酸,m(7)GDP(7-甲基鸟苷二磷酸)和 m(3)(2,2,7)GDP(2,2,7-三甲基鸟苷二磷酸),不会被重组的 DcpS 蛋白(人、线虫和酵母)降解。此外,尽管单核苷酸二磷酸(m(7)GDP 和 m(3)(2,2,7)GDP)不会被 DcpS 水解,但单核苷酸三磷酸(m(7)GTP 和 m(3)(2,2,7)GTP)可以被水解,这证明了三磷酸链对 DcpS 水解活性的重要性。m(7)GTP 和 m(3)(2,2,7)GTP 的水解速度比它们相应的二核苷酸(m(7)GpppG 和 m(3)(2,2,7)GpppG)慢,表明第二个核苷酸的参与对于有效的 DcpS 介导的消化很重要。尽管 DcpS 酶不能水解 m(7)GDP,但它们对 m(7)GDP 具有很高的结合亲和力,并且 m(7)GDP 强烈抑制 DcpS 对 m(7)GpppG 的水解,这表明 m(7)GDP 可能作为一种有效的 DcpS 抑制剂发挥作用。由于 m(7)GDP 可能与不同的帽结合蛋白(如 DcpS 或 eIF4E)相互作用,因此我们的数据对于 m(7)GDP 在 mRNA 代谢途径中的调节作用具有重要意义。

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