Ordered Cooperative Functions of PRMT1, p300, and CARM1 in Transcriptional Activation by p53

An, Woojin; Kim, Jaehoon; Roeder, Robert G.

doi:10.1016/j.cell.2004.05.009

Cited by 447 publications

(471 citation statements)

References 37 publications

Supporting

Mentioning

438

Contrasting

Unclassified

Order By: Relevance

“…Histones have been shown to be essential substrates for p53-dependent methyl transferase activity, in particular CARM1 and PRMT1 are known to bind directly to p53. The work of An et al (2004) indicates a p53-dependent accumulation of distinct histone modifications in response to the activity of CARM1 and PRMT1. In the present study, mono-methylation at histone H3 K4 was elevated in cells expressing p53 while di-methylation at histone H3 K9 was abrogated (Figure 3), suggesting a role for p53 in histone H3 methylation at K4 and K9 which is not influenced by modifications of p53 at S15 or S37.…”

Section: Resultsmentioning

confidence: 97%

Crosstalk between site-specific modifications on p53 and histone H3

et al. 2007

View full text Add to dashboard Cite

Previously, we have observed a link between p53 expression and histone H3 post-translational modifications. Here, we ask if specific post-translational modifications of p53 impact upon histone H3 modifications in a selective manner. We have also screened for internal co-operative effects within the repertoire of p53 modifications. Exogenous p53 constructs were expressed in HCT116 p53 À/À cells. Four mutant p53 constructs were used, with single 'phosphorylation' mutations at serines 15 and 37 (S15A, S15D, S37A and S37D) and compared with exogenously expressed wild-type p53. The results showed that the replacement of serine 15 with either alanine (S15A) or aspartic acid (S15D) induced phosphorylation at S33P, S37P and S46P. In contrast, phosphorylation mutants p53(S37A) and p53(S37D) were not phosphorylated on S33. S46 phosphorylation appeared specifically enhanced by p53(S37D) relative to p53(S37A). Distal induction of S392 phosphorylation was observed for each of the p53 N-terminal phosphorylation mutants. Analysis of endogenous histone H3 (from the transfected cells) revealed loss of di-methylated K9 following expression of wild type and mutant p53 constructs. Expression of p53 (S15A), (S15D) and (S37A) selectively induced acetylation at K9 and K14. In contrast, wt p53 and p53(S37D) had no effect upon K9 or K14 acetylation. K18 acetylation status was unaffected throughout.

show abstract

Section: Resultsmentioning

confidence: 97%

Crosstalk between site-specific modifications on p53 and histone H3

et al. 2007

View full text Add to dashboard Cite

show abstract

“…The first one is built on the assumption that the promoter region of the gene to be activated by p53 is usually not accessible to the general transcription factors and RNA polymerase. In this scenario binding of p53 to its REs within a promoter would facilitate promoter opening via recruiting either chromatin remodeling factors (CRF) 91,92 (though see reference Hill et al 93 ) or histone transacetylases (HAT) [94][95][96][97] and/or methyltransferases 98 (Figure 2). This view has been validated recently in a significant number of studies.…”

Section: Transcription Regulation By P53mentioning

confidence: 99%

“…49,55,[94][95][96][97] The involvement of PRMT1 and CARM1 methyltransferases in p53 function has been also demonstrated in the in vitro study utilizing a chromatin template with GADD45 p53 RE. 98 Thus, histone modifications and the subsequent alterations in chromatin structure and function seem to be one of the major outcomes of p53 binding to the RE. In addition, p53 has been shown to facilitate formation of preinitiation complex via direct interactions with the components of Mediator complex.…”

Section: Transcription Regulation By P53mentioning

confidence: 99%

Transcriptional regulation by p53: one protein, many possibilities

2006

View full text Add to dashboard Cite

The p53 tumor suppressor protein is a DNA sequence-specific transcriptional regulator that, in response to various forms of cellular stress, controls the expression of numerous genes involved in cellular outcomes including among others, cell cycle arrest and cell death. Two key features of the p53 protein are required for its transcriptional activities: its ability to recognize and bind specific DNA sequences and to recruit both general and specialized transcriptional co-regulators. In fact, multiple interactions with co-activators and corepressors as well as with the components of the general transcriptional machinery allow p53 to either promote or inhibit transcription of different target genes. This review focuses on some of the salient features of the interactions of p53 with DNA and with factors that regulate transcription. We discuss as well the complexities of the functional domains of p53 with respect to these interactions.

show abstract

“…48,49 p53 and ER have been functionally and physically related to proteins involved in chromatin methyl mark changes, such as G9a and LSD1. [50][51][52][53][54][55] However, the outcome of the induced epigenetic changes is variable. For example, G9a, considered the major euchromatin H3K9 methyltransferase, can act both as corepressor and as a coactivator for nuclear receptor functions, in cooperation with CARM1 and p300.…”

Section: Methodsmentioning

confidence: 99%

“…50 Notably, both CARM1 and p300 can be recruited by p53 contributing to transcriptional activation. 51 Acetylation marks at H3 and H4 histone tails are considered chromatin activation markers. Both p53 and ER can recruit histone acetyltransferases contributing to gene activation.…”

Section: Methodsmentioning

confidence: 99%