Abstract
Phosphorylation of nuclear factor-kappa B (NF-kappa B) subunits emerges as a mechanism by which transcriptional activity of nuclear NF-kappa B complexes is regulated in an inhibitor kappa B-independent fashion. As the main transactivator, the p65 subunit of NF-kappa B has an outstanding position in the hierarchy of NF-kappa B proteins. p65 is a multiply phosphorylated protein with phosphorylation sites in the C-terminal transactivation domain and the N-terminal Rel homology domain (RHD). In this study, we describe two previously non-reported phospho-acceptor sites within the p65 RHD. We show that differential phosphorylation of serine residues within the RHD modulates transcriptional activity in a cis-acting element and promoter-specific context, thus leading to a phosphorylation state-dependent gene expression profile. RelA(-/-) mouse embryonic fibroblasts reconstituted with wild-type p65 or p65 phosphorylation-deficient mutants showed a distinctive expression profile of synthetic kappa B-dependent reporters as well as endogenous genes. Hypophosphorylated p65 did not display cis-acting element-specific changes in DNA binding or dimerization behavior. This study shows for the first time that site-specific phosphorylation can target a transcription factor to a particular subset of genes.
Highlights
Protein phosphorylation is used in many different ways to control the activity of transcription factors
Phosphorylation of nuclear factor-B (NF-B) subunits emerges as a mechanism by which transcriptional activity of nuclear NF-B complexes is regulated in an inhibitor B-independent fashion
We show that differential phosphorylation of serine residues within the Rel homology domain (RHD) modulates transcriptional activity in a cis-acting element and promoter-specific context, leading to a phosphorylation state-dependent gene expression profile
Summary
Protein phosphorylation is used in many different ways to control the activity of transcription factors. Upon nuclear import and binding to specific decameric recognition motifs, which are reflected by the consensus GGGRHTYYCC (R, purine; Y, pyrimidine; H, not G), NF-B dimers function as transacting elements in the promoter region of NF-B-dependent genes. The role of individual phospho-serines is not fully determined, it has been shown that they regulate p65 interaction with nuclear co-activator cyclic AMP-responsive element binding protein binding protein/p300 [5, 13, 17]. We show that differential phosphorylation of NF-B p65 RHD modulates transcriptional activity in a cis-acting element and promoter-specific context, leading to phosphorylation state-dependent gene expression profiles. RelAϪ/Ϫ mouse embryonic fibroblasts reconstituted with wt p65 or p65 phosphorylation-deficient mutants showed a distinctive expression profile of synthetic B-dependent reporters as well as endogenous genes
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