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Target Concepts:
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Query: UNIPROT:P04155 (
pS2
)
1,234
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The nuclear hormone receptor co-activator
CARM1
has the potential to methylate histone H3 at arginine residues in vitro. The methyltransferase activity of
CARM1
is necessary for its co-activator functions in transient transfection assays. However, the role of this methyltransferase in vivo is unclear, given that methylation of arginines is not easily detectable on histones. We have raised an antibody that specifically recognizes methylated arginine 17 (R17) of histone H3, the major site of methylation by
CARM1
. Using this antibody we show that methylated R17 exists in vivo. Chromatin immunoprecipitation analysis shows that R17 methylation on histone H3 is dramatically upregulated when the estrogen receptor-regulated
pS2
gene is activated. Coincident with the appearance of methylated R17,
CARM1
is found associated with the histones on the
pS2
gene. Together these results demonstrate that
CARM1
is recruited to an active promoter and that
CARM1
-mediated R17 methylation on histone H3 takes place in vivo during this active state.
...
PMID:Methylation at arginine 17 of histone H3 is linked to gene activation. 1175 82
Hormone-activated nuclear receptors (NR) activate transcription by recruiting multiple coactivator complexes to the promoters of target genes. One important coactivator complex includes a p160 coactivator (e.g., GRIP1, SRC-1, or ACTR) that binds directly to activated NR, the histone acetyltransferase p300 or CBP, and the arginine-specific histone methyltransferase
CARM1
. We previously demonstrated that the coactivator function of
CARM1
depends both on the methyltransferase activity and on additional unknown proteins that bind to
CARM1
. In this study a yeast two-hybrid screen for proteins that bind
CARM1
identified the protein Flightless I (Fli-I), which has essential roles in Drosophila and mouse development. Fli-I bound to
CARM1
, GRIP1, and NRs and cooperated synergistically with
CARM1
and GRIP1 to enhance NR function. Fli-I bound poorly to and did not cooperate with PRMT1, a
CARM1
-related protein arginine methyltransferase that also functions as an NR coactivator. The synergy between GRIP1,
CARM1
, and Fli-I required the methyltransferase activity of
CARM1
. The C-terminal AD1 (binding site for p300/CBP) and AD2 (binding site for
CARM1
) activation domains of GRIP1 contributed to the synergy but were less stringently required than the N-terminal region of GRIP1, which is the binding site for Fli-I. Endogenous Fli-I was recruited to the estrogen-regulated
pS2
gene promoter of MCF-7 cells in response to the hormone, and reduction of endogenous Fli-I levels by small interfering RNA reduced hormone-stimulated gene expression by the endogenous estrogen receptor. A fragment of Fli-I that is related to the actin binding protein gelsolin enhanced estrogen receptor activity, and mutations that reduced actin binding also reduced the coactivator function of this Fli-I fragment. These data suggest that Fli-I may facilitate interaction of the p160 coactivator complex with other coactivators or coactivator complexes containing actin or actin-like proteins.
...
PMID:Developmentally essential protein flightless I is a nuclear receptor coactivator with actin binding activity. 1496 89
Methylation of arginine residues within histone H3 has been linked to active transcription. This modification appears on the estrogen-regulated
pS2
promoter when the
CARM1
methyltransferase is recruited during transcriptional activation. Here we describe a process, deimination, that converts histone arginine to citrulline and antagonizes arginine methylation. We show that peptidyl arginine deiminase 4 (PADI4) specifically deiminates, arginine residues R2, R8, R17, and R26 in the H3 tail. Deimination by PADI4 prevents arginine methylation by
CARM1
. Dimethylation of arginines prevents deimination by PADI4 although monomethylation still allows deimination to take place. In vivo targeting experiments on an endogenous promoter demonstrate that PADI4 can repress hormone receptor-mediated gene induction. Consistent with a repressive role for PADI4, this enzyme is recruited to the
pS2
promoter following hormone induction when the gene is transcriptionally downregulated. The recruitment of PADI4 coincides with deimination of the histone H3 N-terminal tail. These results define deimination as a novel mechanism for antagonizing the transcriptional induction mediated by arginine methylation.
...
PMID:Histone deimination antagonizes arginine methylation. 1533 60
Nuclear receptors (NRs) regulate target gene transcription through the recruitment of multiple coactivator complexes to the promoter regions of target genes. One important coactivator complex includes a p160 coactivator (GRIP1, SRC-1, or ACTR) and its downstream coactivators (e.g., p300,
CARM1
, CoCoA, and Fli-I), which contribute to transcriptional activation by protein acetylation, protein methylation, and protein-protein interactions. In this study, we identified a novel NR coactivator, GAC63, which binds to the N-terminal region of p160 coactivators as well as the ligand binding domains of some NRs. GAC63 enhanced transcriptional activation by NRs in a hormone-dependent and GRIP1-dependent manner in transient transfection assays and cooperated synergistically and selectively with other NR coactivators, including GRIP1 and
CARM1
, to enhance estrogen receptor function. Endogenous GAC63 was recruited to the estrogen-responsive
pS2
gene promoter of MCF-7 cells in response to the hormone. Reduction of the endogenous GAC63 level by small interfering RNA inhibited transcriptional activation by the hormone-activated estrogen receptor. Thus, GAC63 is a physiologically relevant part of the p160 coactivator signaling pathway that mediates transcriptional activation by NRs.
...
PMID:GAC63, a GRIP1-dependent nuclear receptor coactivator. 1598 12
