Brown adipose TRX2 deficiency activates mtDNA-NLRP3 to impair thermogenesis and protect against diet-induced insulin resistance
Yanrui Huang, … , Carlos Fernandez-Hernando, Wang Min
Yanrui Huang, … , Carlos Fernandez-Hernando, Wang Min
Published February 24, 2022
Citation Information: J Clin Invest. 2022;132(9):e148852. https://doi.org/10.1172/JCI148852.
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Research Article Inflammation Metabolism

Brown adipose TRX2 deficiency activates mtDNA-NLRP3 to impair thermogenesis and protect against diet-induced insulin resistance

Abstract

Brown adipose tissue (BAT), a crucial heat-generating organ, regulates whole-body energy metabolism by mediating thermogenesis. BAT inflammation is implicated in the pathogenesis of mitochondrial dysfunction and impaired thermogenesis. However, the link between BAT inflammation and systematic metabolism remains unclear. Herein, we use mice with BAT deficiency of thioredoxin-2 (TRX2), a protein that scavenges mitochondrial reactive oxygen species (ROS), to evaluate the impact of BAT inflammation on metabolism and thermogenesis and its underlying mechanism. Our results show that BAT-specific TRX2 ablation improves systematic metabolic performance via enhancing lipid uptake, which protects mice from diet-induced obesity, hypertriglyceridemia, and insulin resistance. TRX2 deficiency impairs adaptive thermogenesis by suppressing fatty acid oxidation. Mechanistically, loss of TRX2 induces excessive mitochondrial ROS, mitochondrial integrity disruption, and cytosolic release of mitochondrial DNA, which in turn activate aberrant innate immune responses in BAT, including the cGAS/STING and the NLRP3 inflammasome pathways. We identify NLRP3 as a key converging point, as its inhibition reverses both the thermogenesis defect and the metabolic benefits seen under nutrient overload in BAT-specific Trx2-deficient mice. In conclusion, we identify TRX2 as a critical hub integrating oxidative stress, inflammation, and lipid metabolism in BAT, uncovering an adaptive mechanism underlying the link between BAT inflammation and systematic metabolism.

Authors

Yanrui Huang, Jenny H. Zhou, Haifeng Zhang, Alberto Canfran-Duque, Abhishek K. Singh, Rachel J. Perry, Gerald I. Shulman, Carlos Fernandez-Hernando, Wang Min

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Figure 10

NLRP3 inflammasome inhibitor MCC950 ameliorates the impaired thermogenic phenotype of Trx2BATKO mice.

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NLRP3 inflammasome inhibitor MCC950 ameliorates the impaired thermogenic...
Eight-week-old WT and Trx2BATKO mice under NCD were treated with MCC950 (10 mg/kg) or an equal volume of saline by intraperitoneal injection every other day for 8 weeks (n = 6). (A) mRNA expression of inflammasome-related genes in iBAT (n = 3). Relative mRNA levels are presented as fold changes by taking saline-treated WT as 1.0. (B) Western blots of NLRP3 inflammasome-related proteins in iBAT. Protein levels are presented as fold changes by taking saline-treated WT as 1.0. n = 3. (C) Mature IL-1β levels in iBAT were measured by ELISA (n = 3). (D) Protein levels of the cGAS/STING pathway in iBAT were detected by Western blotting. Protein levels are presented as fold changes by taking saline-treated WT as 1.0. n = 3. (E) mRNA expression of proinflammatory cytokines in iBAT (n = 3). Relative mRNA levels are presented as fold changes by taking saline-treated WT as 1.0. (F) Western blots of PPARα in iBAT. n = 3. (G) mRNA expression of lipid metabolism genes in iBAT (n = 3). Normalized mRNA levels (versus β-actin mRNA) are presented. (H) Intrarectal temperature during acute cold intolerance test in the absence of food (n = 6). (I) Ratios of adipose depots to body weight (n = 4). (J) Representative histologic images of adipose tissues. Arrowheads denote large LDs in BAT, and arrows denote ingWAT with multilocular LDs. (K and L) BAT adipocytes with unilocular LD diameter of 20 μm or more and percentages of WAT with multilocular LDs are quantified. n = 6. Quantitative data are presented as mean ± SEM. *P < 0.05; **P < 0.01; ***P < 0.001. Significance was assessed by 1-way ANOVA followed by Tukey’s post hoc test. Scale bar: 100 μm (J).