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Abstract
Nuclear factor κB (NF-κB) is a central coordinator in immune and inflammatory responses. Constitutive NF-κB is often found in some types of cancers, contributing to oncogenesis and tumor progression. Therefore, knowing how NF-κB is regulated is important for its therapeutic control. Post-translational modification of the p65 subunit of NF-κB is a well known approach for its regulation. Here, we reported that in response to interleukin 1β, the p65 subunit of NF-κB is phosphorylated on the novel serine 316. Overexpression of S316A (serine 316 → alanine) mutant exhibited significantly reduced ability to activate NF-κB and decreased cell growth as compared with wtp65 (wild type p65). Moreover, conditioned media from cells expressing the S316A-p65 mutant had a considerably lower ability to induce NF-κB than that of wtp65. Our data suggested that phosphorylation of p65 on Ser-316 controls the activity and function of NF-κB. Importantly, we found that phosphorylation at the novel Ser-316 site and other two known phosphorylation sites, Ser-529 and Ser-536, either individually or cooperatively, regulated distinct groups of NF-κB-dependent genes, suggesting the unique role of each individual phosphorylation site on NF-κB-dependent gene regulation. Our novel findings provide an important piece of evidence regarding differential regulation of NF-κB-dependent genes through phosphorylation of different p65 serine residues, thus shedding light on novel mechanisms for the pathway-specific control of NF-κB. This knowledge is key to develop strategies for prevention and treatment of constitutive NF-κB-driven inflammatory diseases and cancers.
Highlights
Post-translational modification is an important approach to regulate Nuclear factor B (NF-B) activity
Why do cells need to phosphorylate multiple serine residues on p65? How do different sites of serine phosphorylation contribute to NF-B gene regulation? These interesting phenomena motivated us to further explore whether there are any unidentified serine phosphorylations on p65 beyond the existing knowledge
We showed that phosphorylation of Serine 316 (Ser-316) enhanced p65 transcription activity. B-specific luciferase assay proved that overexpressing wtp65 but not the S316A-p65 mutant significantly activated NF-B in both 293C6 cells and MEFp65Ϫ/Ϫcells
Summary
Post-translational modification is an important approach to regulate NF-B activity. Results: Serine 316 (Ser-316) is a novel phosphorylation site on p65. Our novel findings provide an important piece of evidence regarding differential regulation of NF-B-dependent genes through phosphorylation of different p65 serine residues, shedding light on novel mechanisms for the pathway-specific control of NF-B. This knowledge is key to develop strategies for prevention and treatment of constitutive NF-B-driven inflammatory diseases and cancers. Protein kinases catalyze phosphorylation on serine, threonine, or tyrosine residues by adding a covalently bound phosphate group [9] This process switches the protein states between either active or inactive forms, leading to a change in protein function or localization. 12 phosphorylation sites have been identified on p65 in response to different stimuli and/or in different cell
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