IKKβ is a β-catenin kinase that regulates mesenchymal stem cell differentiation
Yipeng Sui, Zun Liu, Se-Hyung Park, Sean E. Thatcher, Beibei Zhu, Joseph P. Fernandez, Henrik Molina, Philip A. Kern, Changcheng Zhou
Yipeng Sui, Zun Liu, Se-Hyung Park, Sean E. Thatcher, Beibei Zhu, Joseph P. Fernandez, Henrik Molina, Philip A. Kern, Changcheng Zhou
View: Text | PDF
Research Article Cell biology Stem cells

IKKβ is a β-catenin kinase that regulates mesenchymal stem cell differentiation

Abstract

Mesenchymal stem cells (MSCs) can give rise to both adipocytes and osteoblasts, but the molecular mechanisms underlying MSC fate determination remain poorly understood. IκB kinase β (IKKβ), a central coordinator of inflammation and immune responses through activation of NF-κB, has been implicated as a critical molecular link between obesity and metabolic disorders. Here, we show that IKKβ can reciprocally regulate adipocyte and osteoblast differentiation of murine and human MSCs through an NF-κB–independent mechanism. IKKβ is a β-catenin kinase that phosphorylates the conserved degron motif of β-catenin to prime it for β-TrCP–mediated ubiquitination and degradation, thereby increasing adipogenesis and inhibiting osteogenesis in MSCs. Animal studies demonstrated that deficiency of IKKβ in BM mesenchymal stromal cells increased bone mass and decreased BM adipocyte formation in adult mice. In humans, IKKβ expression in adipose tissue was also positively associated with increased adiposity and elevated β-catenin phosphorylation. These findings suggest IKKβ as a key molecular switch that regulates MSC fate, and they provide potentially novel mechanistic insights into the understanding of the cross-regulation between the evolutionarily conserved IKKβ and Wnt/β-catenin signaling pathways. The IKKβ-Wnt axis we uncovered may also have important implications for development, homeostasis, and disease pathogenesis.

Authors

Yipeng Sui, Zun Liu, Se-Hyung Park, Sean E. Thatcher, Beibei Zhu, Joseph P. Fernandez, Henrik Molina, Philip A. Kern, Changcheng Zhou

×

Figure 7

IKKβ interacts with β-catenin and phosphorylates it at serine-33, -37 and -45.

Options: View larger image (or click on image) Download as PowerPoint
IKKβ interacts with β-catenin and phosphorylates it at serine-33, -37 an...
(A) The sequence of a conserved 6–amino acid motif found in β-catenin and IκB family members. (B) Immunoblotting for FLAG-tagged IKKβ and HA-tagged β-catenin proteins after immunoprecipitation using control IgG or antibodies against FLAG or HA proteins in C3H10T1/2 cells and HEK 293T cells. (C) In vitro phosphorylation of purified GST–β-catenin proteins by IKKβ in the presence of γ-[32P]ATP. (D–F) GST–β-catenin proteins phosphorylated by IKKβ in vitro were tryptic digested and analyzed by mass spectrometry. Figures show the recovered phosphorylated 30-residue fragment of β-catenin (residues 20–49). Tandem mass spectrum of the recovered peptide phosphorylated at ser45 residue (D). The peptides phosphorylated at ser33 and ser37 residues were coeluted. Color codes are used to mark fragment ions that allows distinguishing phosphorylation of ser33 (blue) and ser37 (red) (E). Tandem MS ion traces (10 ppm extraction) for the nonphosphorylated peptide, ser45- and ser33/ser37-phosphorylated peptides, and AUCs shown in italics (F).