Lrg1 is a Driver of Brown Adipose Tissue Dysfunction in Obesity

Abstract

Background Energy is stored as lipid within white adipose tissue (WAT) however, over-nutrition can lead to excess WAT, obesity and metabolic disease. Brown adipose tissue (BAT) has a primary role in energy expenditure through futile cycling of the electron transport chain (ETC) to generate heat. BATs heat producing capacity may be a novel approach to treating obesity. Adult humans possess metabolically active BAT, but the onset of obesity can reduce BAT thermogenic activity and mass. Obesity can bring about morphological changes to BAT, causing BAT to resemble WAT in a process termed “whitening”. WAT is a well-known endocrine organ. Specific endocrine signals from WAT could be responsible for reduced BAT activity in obesity. Leucine-rich-α2-glycoprotein 1 (LRG1) is an adipose-associated secretory protein and potential adipokine, with plasma levels positively correlated to body mass index in humans. Hypothesis It is hypothesized that LRG1 is an adipokine which negatively regulates thermogenesis in BAT and contributes to obesity related loss of BAT. Methods Male Lrg1 global knockout (KO) mice or wild type (WT) controls were fed standard chow (STD) or high fat diet (HFD) for 10 weeks. At 18 weeks of age systemic and BAT metabolic characteristics were determined by whole body indirect calorimetry, high-resolution tissue respirometry, quantitative PCR and immunoblots. Results After 10 weeks of HFD feeding Lrg1 KO mice fed STD and HFD had significantly higher percentage of body mass comprised of BAT than WT controls (Figure 1A). Lrg1 KO mice fed HFD had a lower respiratory exchange ratio (RER), indicating a greater use of fat oxidation compared to WT controls (Figure 1B). Mitochondrial respiration was used to measure changes in cellular energy. In response to HFD WT mice exhibit a decrease in mitochondrial respiration through complex 1 of the electron transport chain (ETC) (Figure 2A). The mitochondrial function of Lrg1 KO mice BAT is protected from HFD-induced dysfunction at Complex 1 of the ETC (Figure 2A). Uncoupling protein 1 (UCP1), a key protein involved in thermogenesis, Ucp1 mRNA is significantly increased in the BAT of Lrg1 KO STD and HFD fed mice compared to WT (Figure 2B). Ucp1 mRNA expression increase in Lrg1 KO mice was confirmed by measuring UCP1 protein with an immunoblot (Figure 2C). Conclusion Loss of Lrg1 protects BAT from dysfunction in diet-induced obesity.