Mixed Lineage Leukemia 5 (MLL5) Protein Stability Is Cooperatively Regulated by O-GlcNac Transferase (OGT) and Ubiquitin Specific Protease 7 (USP7)

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Abstract

Mixed lineage leukemia 5 (MLL5) protein is a trithorax family histone 3 lysine 4 (H3K4) methyltransferase that regulates diverse biological processes, including cell cycle progression, hematopoiesis and cancer. The mechanisms by which MLL5 protein stability is regulated have remained unclear to date. Here, we showed that MLL5 protein stability is cooperatively regulated by O-GlcNAc transferase (OGT) and ubiquitin-specific protease 7 (USP7). Depletion of OGT in cells led to a decrease in the MLL5 protein level through ubiquitin/proteasome-dependent proteolytic degradation, whereas ectopic expression of OGT protein suppressed MLL5 ubiquitylation. We further identified deubiquitinase USP7 as a novel MLL5-associated protein using mass spectrometry. USP7 stabilized the MLL5 protein through direct binding and deubiquitylation. Loss of USP7 induced degradation of MLL5 protein. Conversely, overexpression of USP7, but not a catalytically inactive USP7 mutant, led to decreased ubiquitylation and increased MLL5 stability. Co-immunoprecipitation and co-immunostaining assays revealed that MLL5, OGT and USP7 interact with each other to form a stable ternary complex that is predominantly located in the nucleus. In addition, upregulation of MLL5 expression was correlated with increased expression of OGT and USP7 in human primary cervical adenocarcinomas. Our results collectively reveal a novel molecular mechanism underlying regulation of MLL5 protein stability and provide new insights into the functional interplay among O-GlcNAc transferase, deubiquitinase and histone methyltransferase.

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Most cited references 52

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DTASelect and Contrast: tools for assembling and comparing protein identifications from shotgun proteomics.

David L. Tabb, W. McDonald, John R R Yates (2003)

The components of complex peptide mixtures can be separated by liquid chromatography, fragmented by tandem mass spectrometry, and identified by the SEQUEST algorithm. Inferring a mixture's source proteins requires that the identified peptides be reassociated. This process becomes more challenging as the number of peptides increases. DTASelect, a new software package, assembles SEQUEST identifications and highlights the most significant matches. The accompanying Contrast tool compares DTASelect results from multiple experiments. The two programs improve the speed and precision of proteomic data analysis.

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The O-GlcNAc transferase gene resides on the X chromosome and is essential for embryonic stem cell viability and mouse ontogeny.

R Shafi, S. Iyer, L Ellies … (2000)

Nuclear and cytoplasmic protein glycosylation is a widespread and reversible posttranslational modification in eukaryotic cells. Intracellular glycosylation by the addition of N-acetylglucosamine (GlcNAc) to serine and threonine is catalyzed by the O-GlcNAc transferase (OGT). This "O-GlcNAcylation" of intracellular proteins can occur on phosphorylation sites, and has been implicated in controlling gene transcription, neurofilament assembly, and the emergence of diabetes and neurologic disease. To study OGT function in vivo, we have used gene-targeting approaches in male embryonic stem cells. We find that OGT mutagenesis requires a strategy that retains an intact OGT gene as accomplished by using Cre-loxP recombination, because a deletion in the OGT gene results in loss of embryonic stem cell viability. A single copy of the OGT gene is present in the male genome and resides on the X chromosome near the centromere in region D in the mouse spanning markers DxMit41 and DxMit95, and in humans at Xq13, a region associated with neurologic disease. OGT RNA expression in mice is comparably high among most cell types, with lower levels in the pancreas. Segregation of OGT alleles in the mouse germ line with ZP3-Cre recombination in oocytes reveals that intact OGT alleles are required for completion of embryogenesis. These studies illustrate the necessity of conditional gene-targeting approaches in the mutagenesis and study of essential sex-linked genes, and indicate that OGT participation in intracellular glycosylation is essential for embryonic stem cell viability and for mouse ontogeny.

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Bittersweet memories: linking metabolism to epigenetics through O-GlcNAcylation.

Dona Love, David W. Krause, John Hanover (2012)

O-GlcNAcylation, which is a nutrient-sensitive sugar modification, participates in the epigenetic regulation of gene expression. The enzymes involved in O-linked β-D-N-acetylglucosamine (O-GlcNAc) cycling - O-GlcNAc transferase (OGT) and O-GlcNAcase (OGA) - target key transcriptional and epigenetic regulators including RNA polymerase II, histones, histone deacetylase complexes and members of the Polycomb and Trithorax groups. Thus, O-GlcNAc cycling may serve as a homeostatic mechanism linking nutrient availability to higher-order chromatin organization. In response to nutrient availability, O-GlcNAcylation is poised to influence X chromosome inactivation and genetic imprinting, as well as embryonic development. The wide range of physiological functions regulated by O-GlcNAc cycling suggests an unexplored nexus between epigenetic regulation in disease and nutrient availability.

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Author and article information

Contributors

Michael Shing-Yan Huen: Role: Editor

Journal

Journal ID (nlm-ta): PLoS One

Journal ID (iso-abbrev): PLoS ONE

Journal ID (publisher-id): plos

Journal ID (pmc): plosone

Title: PLoS ONE

Publisher: Public Library of Science (San Francisco, CA USA )

ISSN (Electronic): 1932-6203

Publication date (Electronic): 17 December 2015

Publication date Collection: 2015

Volume: 10

Issue: 12

Electronic Location Identifier: e0145023

Affiliations

[1 ]Department of Immunology, Nanjing Medical University, Jiangsu, China

[2 ]Key Laboratory of Molecular Virology and Immunology, Institut Pasteur of Shanghai, Chinese Academy of Sciences, Shanghai, China

[3 ]Shanghai Red House Obstetrics and Gynecology Hospital, Fudan University, Shanghai, China

[4 ]Institute of Biology and Medical Sciences, Soochow University, Jiangsu, China

[5 ]College of life science, Sun Yet-Sen University, Guangzhou, China

[6 ]College of Life Science, Shanghai Normal University, Shanghai, China

[7 ]National Center for Protein Science Shanghai, Institute of Biochemistry and Cell Biology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences, Shanghai, China

The University of Hong Kong, HONG KONG

Author notes

Competing Interests: The authors have declared that no competing interests exist.

Conceived and designed the experiments: XD WJ FH YZ. Performed the experiments: XD PZ LL XLW XY XZW MC JC. Analyzed the data: CP CW. Contributed reagents/materials/analysis tools: JY CK BL. Wrote the paper: XD YZ.

* E-mail: jw52317@ 123456126.com (WJ); yan_zhang@ 123456sibs.ac.cn (YZ)

Article

Publisher ID: PONE-D-15-41858

DOI: 10.1371/journal.pone.0145023

PMC ID: 4683056

PubMed ID: 26678539

SO-VID: 94f4d254-ba37-4b85-ae8e-37d2d62f62bc

License:

This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited

History

Date received : 22 September 2015

Date accepted : 28 November 2015

Page count

Figures: 7, Tables: 0, Pages: 21

Funding

This work is supported by National Basic Research Program of China Grants (2015CB964901, http://www.most.gov.cn), National Natural Science Foundation of China Grants (31471207 and 81270618, http://www.nsfc.gov.cn) to YZ, and the Medicine Guide Project of the Science and Technology Commission of Shanghai Municipality (114119a233, http://www.stcsm.gov.cn/) to WJ.

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Mixed Lineage Leukemia 5 (MLL5) Protein Stability Is Cooperatively Regulated by O-GlcNac Transferase (OGT) and Ubiquitin Specific Protease 7 (USP7)

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Most cited references 52

DTASelect and Contrast: tools for assembling and comparing protein identifications from shotgun proteomics.

The O-GlcNAc transferase gene resides on the X chromosome and is essential for embryonic stem cell viability and mouse ontogeny.

Bittersweet memories: linking metabolism to epigenetics through O-GlcNAcylation.

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