用优化的 PP1 破坏肽研究 MAPK 通路中的 PP1 活性。

Interrogating PP1 Activity in the MAPK Pathway with Optimized PP1-Disrupting Peptides.

机构信息

Genome Biology Unit, European Molecular Biology Laboratory, Meyerhofstrasse 1, 69117, Heidelberg, Germany.

Faculty of Biology and BIOSS-Centre for Biological Signalling Studies, Albert-Ludwigs-University of Freiburg, Schänzlestrasse 18, 79104, Freiburg, Germany.

出版信息

Chembiochem. 2019 Jan 2;20(1):66-71. doi: 10.1002/cbic.201800541. Epub 2018 Nov 26.

DOI:10.1002/cbic.201800541

PMID:30338897

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6471087/

Abstract

Protein phosphatase-1 (PP1)-disrupting peptides (PDPs) are selective chemical modulators of PP1 that liberate the active PP1 catalytic subunit from regulatory proteins; thus allowing the dephosphorylation of nearby substrates. We have optimized the original cell-active PDP3 for enhanced stability, and obtained insights into the chemical requirements for stabilizing this 23-mer peptide for cellular applications. The optimized PDP-Nal was used to dissect the involvement of PP1 in the MAPK signaling cascade. Specifically, we have demonstrated that, in human osteosarcoma (U2OS) cells, phosphoMEK1/2 is a direct substrate of PP1, whereas dephosphorylation of phosphoERK1/2 is indirect and likely mediated through enhanced tyrosine phosphatase activity after PDP-mediated PP1 activation. Thus, as liberators of PP1 activity, PDPs represent a valuable tool for identifying the substrates of PP1 and understanding its role in diverse signaling cascades.

摘要

蛋白磷酸酶-1（PP1）破坏肽（PDP）是 PP1 的选择性化学调节剂，可将活性 PP1 催化亚基从调节蛋白中释放出来；从而允许附近底物的去磷酸化。我们对原始的细胞活性 PDP3 进行了优化，以提高其稳定性，并深入了解了稳定这种 23 肽用于细胞应用的化学要求。优化后的 PDP-Nal 被用于剖析 PP1 在 MAPK 信号级联中的参与。具体来说，我们已经证明，在人骨肉瘤（U2OS）细胞中，磷酸化 MEK1/2 是 PP1 的直接底物，而磷酸化 ERK1/2 的去磷酸化是间接的，并且可能通过 PDP 介导的 PP1 激活后增强的酪氨酸磷酸酶活性介导。因此，作为 PP1 活性的释放剂，PDP 代表了一种识别 PP1 底物并理解其在各种信号级联中作用的有价值的工具。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f756/6471087/af25700d1feb/CBIC-20-66-g001.jpg

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用优化的 PP1 破坏肽研究 MAPK 通路中的 PP1 活性。

Interrogating PP1 Activity in the MAPK Pathway with Optimized PP1-Disrupting Peptides.

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