NF-κB p65 serine 467 phosphorylation sensitizes mice to weight gain and TNFα-or diet-induced inflammation

Tabea Riedlinger, Marleen B Dommerholt, Tobias Wijshake, Janine K Kruit, Nicolette Huijkman, Daphne C Dekker, Mirjam Koster, Niels J Kloosterhuis, Debby P Y Koonen, Alain de Bruin, Darren Baker, Marten H Hofker, Jan van Deursen, Johan W Jonker, M Lienhard Schmitz, Bart van de Sluis*

*Corresponding author for this work

    Research output: Contribution to journalArticleAcademicpeer-review

    Abstract

    The NF-κB family of transcription factors is essential for an effective immune response, but also controls cell metabolism, proliferation and apoptosis. Its broad relevance and the high connectivity to diverse signaling pathways require a tight control of NF-κB activity. To investigate the control of NF-κB activity by phosphorylation of the NF-κB p65 subunit, we generated a knock-in mouse model in which serine 467 (the mouse homolog of human p65 serine 468) was replaced with a non-phosphorylatable alanine (S467A). This substitution caused reduced p65 protein synthesis and diminished TNFα-induced expression of a selected group of NF-κB-dependent genes. Intriguingly, high-fat fed S467A mice displayed increased locomotor activity and energy expenditure, which coincided with a reduced body weight gain. Although glucose metabolism or insulin sensitivity was not improved, diet-induced liver inflammation was diminished in S467A mice. Altogether, this study demonstrates that phosphorylation of p65 serine 467 augment NF-κB activity and exacerbates various deleterious effects of overnutrition in mice.

    Original languageEnglish
    Pages (from-to)1785-1798
    Number of pages14
    JournalBiochimica et Biophysica Acta
    Volume1864
    Issue number10
    DOIs
    Publication statusPublished - Oct 2017

    Keywords

    • Aging
    • Amino Acid Substitution
    • Animals
    • Gene Expression Regulation
    • Gene Knock-In Techniques
    • Humans
    • Inflammation
    • Insulin
    • Liver
    • Mice
    • Obesity
    • Phosphorylation
    • Serine
    • Transcription Factor RelA
    • Tumor Necrosis Factor-alpha
    • Weight Gain
    • Journal Article
    • Research Support, Non-U.S. Gov't

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