Serum- and glucocorticoid-induced kinase 3 orchestrates glucocorticoid signaling to facilitate chromatin remodeling during murine adipogenesis
Qilong Chen, … , Alexander A. Soukas, Ben Zhou
Qilong Chen, … , Alexander A. Soukas, Ben Zhou
Published August 6, 2025
Citation Information: J Clin Invest. 2025;135(19):e186534. https://doi.org/10.1172/JCI186534.
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Research Article Cell biology Metabolism

Serum- and glucocorticoid-induced kinase 3 orchestrates glucocorticoid signaling to facilitate chromatin remodeling during murine adipogenesis

Abstract

Elevated glucocorticoid levels are common in conditions such as aging, chronic stress, Cushing syndrome, and glucocorticoid therapy. While glucocorticoids suppress inflammation through the glucocorticoid receptor (GR), they also cause metabolic side effects. Investigating alternative pathways beyond GR activation is crucial for reducing these side effects. Our phosphoproteomics analysis revealed that glucocorticoid exposure promotes phosphorylation at the RxxS motifs of multiple proteins in preadipocytes, including those mediated by serum- and glucocorticoid-induced kinase 3 (SGK3). SGK3 is a key mediator of glucocorticoid-induced adipogenesis, as shown by impaired adipogenesis after SGK3 inhibition or genetic ablation. Sgk3-KO mice were resistant to obesity induced by glucocorticoid or a high-fat diet, and proteolysis targeting chimeras (PROTAC) targeting SGK3 reduced adipogenesis in both obese mice and in a thyroid eye disease cell line. Mechanistically, SGK3 translocated to the nucleus upon glucocorticoid stimulation, interacted with and phosphorylated the BRG1 subunit of the BAF complex, and prevented BRG1 degradation, promoting chromatin remodeling necessary for adipogenesis. These findings highlight SGK3 as a potential therapeutic target to mitigate metabolic side effects of elevated glucocorticoid levels.

Authors

Qilong Chen, Jialu Guo, Yuyi Liu, Tai Du, Jiapei Liu, Yuyao Zhang, Yuming Dai, Mengdi Zhang, Ziqian Zhou, Qiyang Zhang, Caixia Wei, Qiurong Ding, Jun Qin, Qiwei Zhai, Ju Qiu, Mengle Shao, Fang Zhang, Alexander A. Soukas, Ben Zhou

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Figure 1

SGK3 is essential for protein phosphorylation in response to glucocorticoid stimulation.

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SGK3 is essential for protein phosphorylation in response to glucocortic...
(A) Representative images of Oil Red O staining of differentiated preadipocytes treated with vehicle or RU486 (left). Scale bar: 200 μm. mRNA level of GR targets Sgk1 (middle) and Rasd1 (right) in preadipocytes treated with DEX or DEX and RU486 for 24 hours. n = 4 from different culture wells. (B) Protein phosphorylation in preadipocytes induced by DEX treatment at various time points. Relative band intensities were quantified (normalized to HSP90) and are shown below the figure. (C) Protein phosphorylation in GFP- or Cre-expressed Nr3c1fl/fl primary SVF cells induced by DEX treatment. Relative band intensities were quantified (normalized to β-actin) and are shown below the figure. (D) Experimental workflow to identify glucocorticoid-induced protein phosphorylation. (E) Volcano plot illustrating DEX-induced phosphorylation alterations. (F) Motif analysis of DEX-induced phosphorylation sites. (G) GSEA analysis of DEX-induced phosphorylation sites with datasets of network_kinase_phosphotarget and network_kinase_phosphosite. (H) SGK3 deficiency attenuates DEX-induced phosphorylation of RxxS/T peptides and phosphorylation of NDRG1 at serine 330. Relative band intensities were quantified (normalized to HSP90) and are shown below the figure. Identical sample aliquots were loaded on separate gels for immunoblotting analysis in B, C, and H. Data in A are represented as mean ± SEM, and 1-way ANOVA was used for statistical analysis. ****P < 0.0001.