A nutrient-responsive AMPK/TBK1 circuit restricts adipocyte catabolism
Churaibhon Wisessaowapak, Yuliya Skorobogatko, Hyeonhui Kim, Xue Feng, Seunghwan Son, Haipeng Fu, Sitao Zhang, Pichaya Lertvilai, Lina Chang, Annie Hoang, Hetty Chen, Sarah Bedsted, Joseph Valentine, Jin Young Huh, Peng Zhao, Shannon M. Reilly, Piyajit Watcharasit, Maryam Ahmadian, Alan R. Saltiel
Churaibhon Wisessaowapak, Yuliya Skorobogatko, Hyeonhui Kim, Xue Feng, Seunghwan Son, Haipeng Fu, Sitao Zhang, Pichaya Lertvilai, Lina Chang, Annie Hoang, Hetty Chen, Sarah Bedsted, Joseph Valentine, Jin Young Huh, Peng Zhao, Shannon M. Reilly, Piyajit Watcharasit, Maryam Ahmadian, Alan R. Saltiel
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Research Article Endocrinology Metabolism

A nutrient-responsive AMPK/TBK1 circuit restricts adipocyte catabolism

Abstract

Metabolic adaptation to both caloric excess and restriction promotes energy conservation by suppressing catabolic pathways via feedback mechanisms that remain incompletely defined. We identified TANK binding kinase 1 (TBK1) as a nutrient- and inflammation-responsive brake on AMPK signaling in adipocytes. Fasting or pharmacological AMPK activation induced Tbk1 transcription via a PGC1α/nuclear respiratory factor 1 axis, which, in turn, limited AMPK activity through a phosphorylation cascade to conserve energy. In obesity, this AMPK/TBK1 axis was disrupted due to chronically elevated basal TBK1, thereby restricting energy expenditure during fasting. Adipocyte-specific TBK1 deletion enhanced fasting-induced AMPK activation, mitochondrial function, and lipolytic gene expression in both lean and obese mice. Pharmacological TBK1 inhibition with amlexanox recapitulated these effects. Combined treatment of mice with amlexanox and the AMPK activator AICAR enhanced weight loss, improved glucose tolerance and insulin sensitivity, and suppressed inflammatory and lipogenic programs in adipose tissue, as well as fibrotic gene expression in the liver. Building on prior clinical observations linking TBK1 inhibition to metabolic health, these findings defined a nutrient-sensitive AMPK/TBK1 feedback loop that limited adipocyte catabolism and suggested that dual targeting of TBK1 and AMPK may help counteract metabolic adaptation and enhance the durability of obesity therapies.

Authors

Churaibhon Wisessaowapak, Yuliya Skorobogatko, Hyeonhui Kim, Xue Feng, Seunghwan Son, Haipeng Fu, Sitao Zhang, Pichaya Lertvilai, Lina Chang, Annie Hoang, Hetty Chen, Sarah Bedsted, Joseph Valentine, Jin Young Huh, Peng Zhao, Shannon M. Reilly, Piyajit Watcharasit, Maryam Ahmadian, Alan R. Saltiel

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Figure 3

PGC1α is required for the transcriptional induction of Tbk1 during fasting.

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PGC1α is required for the transcriptional induction of Tbk1 during fasti...
(A) mRNA stability assay of Arbp and Tbk1 in 3T3-L1 adipocytes treated with actinomycin D in the presence or absence of 10 μM PF-739. (B) qPCR analysis of Tbk1 mRNA in 3T3-L1 adipocytes treated with cycloheximide (CHX) or PF-739 for 6 hours to assess the requirement for de novo protein synthesis. n = 3, 1-way ANOVA with Tukey’s multiple-comparison test. (C) Schematic model of fasting-induced Tbk1 transcription via the AMPK/PGC1α/NRF1 signaling axis. (D) qPCR analysis of Ppargc1a in eWAT from lean mice fasted for 24–48 hours. n = 3, 1-way ANOVA with Tukey’s multiple-comparison test. (E) qPCR analysis of Tbk1 mRNA in eWAT from WT and adipocyte-specific Ppargc1a-KO (Ppargc1aAKO; PKO) mice fasted for 24–48 hours. n = 3, 2-way ANOVA with Tukey’s multiple-comparison test. (F and G) qPCR (F) and immunoblot analysis (G) of NRF1 in eWAT from mice fasted for 24–48 hours. n = 3, 1-way ANOVA with Tukey’s multiple-comparison test. (H) qPCR analysis of Ppargc1a, Nrf1, and Tbk1 mRNA in iWAT from WT and Ppargc1aAKO mice 3 hours after a single acute injection of AICAR (500 mg/kg, i.p.). n = 2–3, 2-way ANOVA with Tukey’s multiple-comparison test. Data are presented as mean ± SEM; each dot represents a biological replicate. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.