Regulation of MEF2 by Histone Deacetylase 4- and SIRT1 Deacetylase-Mediated Lysine Modifications

Zhao, Xuan; Sternsdorf, Thomas; Bolger, Timothy A.; Evans, Ronald M.; Yao, Tso Pang

doi:10.1128/mcb.25.19.8456-8464.2005

Cited by 229 publications

(196 citation statements)

References 47 publications

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“…Therefore, in addition to the HDAC activity associated with their C terminus, class IIa HDACs might also repress MEF2 transcriptional activity through association of their N-terminal domain with corepressors such as HP1 or CtBP (Zhang et al, , b, 2002a. Recently, HDAC4 and -5 were shown to promote sumoylation of MEF2, which results in inhibition of its transcriptional activity Zhao et al, 2005;Gregoire et al, 2006). As opposed to the original model, these results illustrate the multiple levels of regulation of MEF2 by class IIa HDACs and emphasize the need for further work to achieve comprehensive understanding of these mechanisms (Figure 2).…”

Section: Functions Of Class Iia Hdacsmentioning

confidence: 82%

“…As SUMO E3 ligases In addition to being sumoylated, HDAC4, and potentially other class IIa members can act as small ubiquitin-like modifier (SUMO) E3 ligases, a property dependent on their N-terminal domain Zhao et al, 2005;Gregoire et al, 2006). Interestingly, MEF2 was identified as a relevant target for this novel class IIa-associated enzymatic activity.…”

Section: Atypical Rolesmentioning

confidence: 99%

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Class IIa histone deacetylases: regulating the regulators

2007

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Section: Functions Of Class Iia Hdacsmentioning

confidence: 82%

Section: Atypical Rolesmentioning

confidence: 99%

Class IIa histone deacetylases: regulating the regulators

2007

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“…These associate with MEF2 proteins and influence chromatin structure to inactivate target gene expression (29,60). Transrepression is also produced by an independent but uncharacterized mechanism associated with the modification of a MEF2 ␥ domain Lys residue, ␥ K , by small ubiquitin-like modifiers (SUMO) (18,26,27,63). The mode by which the MEF2 element silences MEF2A promoter 1 may entail one or both of these processes.…”

Section: Discussionmentioning

confidence: 99%

Myocyte Enhancer Factor 2A Is Transcriptionally Autoregulated

Ramachandran

et al. 2008

Journal of Biological Chemistry

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MEF2 (myocyte enhancer factor 2) proteins are a small family of transcription factors that play pivotal roles in striated muscle differentiation, development, and metabolism, in neuron survival and synaptic formation, and in lymphocyte selection and activation. Products of the four mammalian MEF2 genes, MEF2A, MEF2B, MEF2C, and MEF2D, are expressed with overlapping but distinct temporospatial patterns. Toward analysis of MEF2A functions and the determinants of its regulated expression, we have mapped and begun studies of the transcriptional control regions of this gene. Heterogeneous 5 -untranslated regions of MEF2A mRNAs result from use of alternative promoters and splicing patterns. The two closely approximated TATA-less promoters are ϳ65 kb upstream of the exon containing the sole initiation codon. Ribonuclease protection and primer extension assays show that each promoter is active in various adult tissues. A canonical MEF2 site overlies the major promoter 1 transcription start site. This element specifically binds MEF2 factors, including endogenous nuclear MEF2A according to chromatin immunoprecipitation studies, and is critical to MEF2A transcription in myocytes. The site exerts reciprocal control of the alternative promoters, silencing promoter 1 and activating promoter 2 under some conditions. Erk5 and p38 MAPK signaling stimulate MEF2A expression by activating both promoters from the MEF2 element. MEF2A transcription is therefore subject to positive or negative regulation by its protein products, depending on signaling activities that influence MEF2 factor trans-activity. The sole MEF2 gene of the cephalochordate amphioxus has a similar regulatory region structure, suggesting that this mode of autoregulatory control is conserved among higher metazoan MEF2 genes.

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“…39,40 In addition, class IIa HDACs -HDAC4, HDAC5, and HDAC7 -increase PML sumoylation in an acetylationindependent manner, 41 and although it is not clear exactly how HDAC4 and related members positively regulate the sumoylation levels of PML, a putative SUMO E3 ligase activity has been suggested. 42 PML has an inhibitory effect on virus infections in vitro and in vivo. 5 Thus, overexpression of PML confers resistance against VSV, influenza virus, human foamy virus (HFV), and lymphocytic choriomeningitis virus (LMCV).…”

Section: Discussionmentioning

confidence: 99%

SIRT1 stabilizes PML promoting its sumoylation

et al. 2010

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SIRT1, the closest mammalian homolog of yeast Sir2, is an NAD þ -dependent deacetylase with relevant functions in cancer, aging, and metabolism among other processes. SIRT1 has a diffuse nuclear localization but is recruited to the PML nuclear bodies (PML-NBs) after PML upregulation. However, the functions of SIRT1 in the PML-NBs are unknown. In this study we show that primary mouse embryo fibroblasts lacking SIRT1 contain reduced PML protein levels that are increased after reintroduction of SIRT1. In addition, overexpression of SIRT1 in HEK-293 cells increases the amount of PML protein whereas knockdown of SIRT1 reduces the size and number of PML-NBs and the levels of PML protein in HeLa cells. SIRT1 stimulates PML sumoylation in vitro and in vivo in a deacetylase-independent manner. Importantly, the absence of SIRT1 reduces the apoptotic response of vesicular stomatitis virus-infected cells and favors the extent of this PML-sensitive virus replication. These results show a novel function of SIRT1 in the control of PML and PML-NBs. The tumor suppressor PML is the main and essential component of the nuclear bodies (NBs), the dynamic compartments that participate in a number of cellular processes, including apoptosis, transcriptional regulation, DNA repair, and protection against viral infection. 1,2 PML acts as a tumor suppressor, antagonizing initiation, promotion, and progression of tumors of various histological origins. 3 PML is also implicated in the regulation of infection by a variety of RNA viruses, adenoviruses, and human cytomegalovirus. 4-7 Its function is regulated by post-translational modifications such as phosphorylation, sumoylation, ubiquitination, and acetylation. However, only the sumoylation of PML has been shown as essential for the formation of the PML-NBs and a crucial process for PML-dependent apoptosis and transcriptional regulation. 8 In addition to PML, PML-NBs contain several other proteins, such as SP100, SUMO-1, pRB, p53, and lately, the NAD þ -dependent, type III, histone/protein deacetylase SIRT1. 9,10 SIRT1 is the best-characterized class III histone deacetylase in mammalian cells and the closest homolog to yeast Sir2. However, although most of SIRT1 functions are related to its enzymatic activity, deacetylation-independent activities of SIRT1 have also been proposed. 11-14 SIRT1 is involved in a wide spectrum of biological processes through diverse substrates such as the tumor suppressor p53, 9,15-17 the transcription factor NF-kB, 18 and the FOXO family of transcription factors. 12,14,19,20 Although SIRT1 has a diffuse nuclear localization, it is recruited to the PML-NBs after PML upregulation. However, the functional significance of this PML-SIRT1 interaction has not been addressed.In this report, we show that there is a correlation between the levels of SIRT1 and PML present in both primary and transfected cells. This positive regulation of PML levels by SIRT1 is mediated by an increase in the sumoylation of PML by SIRT1, in a deacetylation-independent manner. Functional sign...

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Regulation of MEF2 by Histone Deacetylase 4- and SIRT1 Deacetylase-Mediated Lysine Modifications

Cited by 229 publications

References 47 publications

Class IIa histone deacetylases: regulating the regulators

Class IIa histone deacetylases: regulating the regulators

Myocyte Enhancer Factor 2A Is Transcriptionally Autoregulated

SIRT1 stabilizes PML promoting its sumoylation

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