Degradation of the Endoplasmic Reticulum-anchored Transcription Factor MyRF by the Ubiquitin Ligase SCF in a Manner Dependent on the Kinase GSK-3

Overview

Journal J Biol Chem

Specialty Biochemistry

Date 2018 Feb 24

PMID 29472293

Citations 7

Authors

Shogo Nakayama

Kanae Yumimoto

Atsuki Kawamura

Keiichi I Nakayama

Affiliations

Soon will be listed here.

Abstract

The ubiquitin-proteasome system regulates the abundance of many cellular proteins by mediating their targeted degradation. We previously developed a method-differential proteomics-based identification of ubiquitylation substrates (DiPIUS)-for the comprehensive identification of substrates for a given F-box protein subunit of SCF-type ubiquitin ligases. We have now applied DiPIUS to the F-box protein Fbxw7 in three cell lines (mHepa, Neuro2A, and C2C12) and thereby identified myelin regulatory factor (MyRF), an endoplasmic reticulum-anchored transcription factor that is essential for myelination of nerves in the central nervous system, as a candidate substrate of Fbxw7 specifically in mHepa cells. Co-immunoprecipitation analysis confirmed that the NH-terminal cytoplasmic domain of MyRF interacted with Fbxw7 in these cells. Furthermore, an ubiquitylation assay revealed that MyRF undergoes polyubiquitylation in the presence of purified recombinant SCF In addition, the stability of MyRF in mHepa cells was increased by mutation of a putative phosphodegron sequence or by exposure of the cells to an inhibitor of glycogen synthase kinase-3 (GSK-3). We found that MyRF mRNA is not restricted to the central nervous system but is instead distributed widely among mouse tissues. Furthermore, with the use of RNA sequencing in mHepa cells overexpressing or depleted of MyRF, we identified many novel potential target genes of MyRF. Our results thus suggest that Fbxw7 controls the transcription of MyRF target genes in various tissues through regulation of MyRF protein stability in a manner dependent on MyRF phosphorylation by GSK-3.

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