Your search keyword '"Kewei Ma"' showing total 3 results

1. Control of MEF2 Transcriptional Activity by Coordinated Phosphorylation and Sumoylation

Author

Zixu Mao, Jianyun Nie, Qian Yang, Kewei Ma, Xiang-Jiao Yang, Vincent Giguère, Serge Grégoire, Zhenguo Wu, Annie M. Tremblay, and Lin Xiao

Subjects

Mef2, Transcription, Genetic, Molecular Sequence Data, Phosphatase, SUMO protein, MADS Domain Proteins, Biology, Biochemistry, Histone Deacetylases, Ubiquitin, Humans, Amino Acid Sequence, Phosphorylation, Molecular Biology, Cells, Cultured, MEF2 Transcription Factors, Kinase, Calcineurin, Cyclin-dependent kinase 5, Cyclin-Dependent Kinase 5, Cell Biology, HDAC4, Repressor Proteins, Myogenic Regulatory Factors, Small Ubiquitin-Related Modifier Proteins, biology.protein

Abstract

A eukaryotic protein is often subject to regulation by multiple modifications like phosphorylation, acetylation, ubiquitination, and sumoylation. How these modifications are coordinated in vivo is an important issue that is poorly understood but is relevant to many biological processes. We recently showed that human MEF2D (myocyte enhancer factor 2D) is sumoylated on Lys-439. Adjacent to the sumoylation motif is Ser-444, which like Lys-439 is highly conserved among MEF2 proteins from diverse species. Here we present [corrected] several lines of evidence to demonstrate that Ser-444 of MEF2D is required for sumoylation of Lys-439. Histone deacetylase 4 (HDAC4) stimulated this modification by acting through Ser-444. In addition, phosphorylation of Ser-444 by Cdk5, a cyclin-dependent kinase known to inhibit MEF2 transcriptional activity, stimulated sumoylation. Opposing the actions of HDAC4 and Cdk5, calcineurin (also known as protein phosphatase 2B) dephosphorylated Ser-444 and inhibited sumoylation of Lys-439. This phosphatase, however, exerted minimal effects on the phosphorylation catalyzed by ERK5, an extracellular signal-regulated kinase known to activate MEF2D. These results identify [corrected] an essential role for Ser-444 in MEF2D sumoylation and reveal [corrected] a novel mechanism by which calcineurin selectively "edits" phosphorylation at different sites, thereby reiterating that interplay between different modifications represents a general mechanism for coordinated regulation of eukaryotic protein functions in vivo.

Published

2006

2. Control of MEF2 transcriptional activity by coordinated phosphorylation and sumoylation. VOLUME 281 (2006) PAGES 4423-4433

Author

Xiang-Jiao Yang, Serge Grégoire, Vincent Giguère, Qian Yang, Kewei Ma, Zixu Mao, Jianyun Nie, Lin Xiao, Annie M. Tremblay, and Zhenguo Wu

Subjects

Mef2, Transcriptional activity, Volume (thermodynamics), Chemistry, SUMO protein, Phosphorylation, Cell Biology, Molecular Biology, Biochemistry, Cell biology

Published

2006

3. Control of MEF2 Transcriptional Activity by Coordinated Phosphorylation and Sumoylation.

Author

Grégoire, Serge, Tremblay, Annie M., Lin Xiao, Qian Yang, Kewei Ma, Jianyun Nie, Zixu Mao, Zhenguo Wu, Giguère, Vincent, and Xiang-Jiao Yang

Subjects

*EUKARYOTIC cells, *PROTEINS, *PHOSPHORYLATION, *ACETYLATION, *UBIQUITIN, *MUSCLE cells, *CYCLIN-dependent kinases

Abstract

A eukaryotic protein is often subject to regulation by multiple modifications like phosphorylation, acetylation, ubiquitination, and sumoylation. How these modifications are coordinated in vivo is an important issue that is poorly understood but is relevant to many biological processes. We recently showed that human MEF2D (myocyte enhancer factor 2D) is sumoylated on Lys-439. Adjacent to the sumoylation motif is Ser-444, which like Lys-439 is highly conserved among MEF2 proteins from diverse species. Here we presented several lines of evidence to demonstrate that Ser-444 of MEF2D is required for sumoylation of Lys-439. Histone deacetylase 4 (HDAC4) stimulated this modification by acting through Ser-444. In addition, phosphorylation of Ser-444 by Cdk5, a cyclin-dependent kinase known to inhibit MEF2 transcriptional activity, stimulated sumoylation. Opposing the actions of HDAC4 and Cdk5, calcineurin (also known as protein phosphatase 2B) dephosphorylated Ser-444 and inhibited sumoylation of Lys-439. This phosphatase, however, exerted minimal effects on the phosphorylation catalyzed by ERKS, an extracellular signal-regulated kinase known to activate MEF2D. These results identified an essential role for Ser-444 in MEF2D sumoylation and revealed a novel mechanism by which calcineurin selectively ‘edits’ phosphorylation at different sites, thereby reiterating that interplay between different modifications represents a general mechanism for coordinated regulation of eukaryotic protein functions in vivo. [ABSTRACT FROM AUTHOR]

Published

2006