Regulation of Brown Adipose Tissue Function by HuR

Abstract

Stimulating the metabolic function of brown adipose tissue (BAT) and/or inducing the beiging of white adipocytes (WAT) to BAT‐like cells represent potential therapeutic strategies for increasing energy expenditure and reducing obesity. HuR (ELAVL1) is an RNA binding protein that mediates gene expression through stabilization of mRNA targets and is highly expressed in both WAT and BAT. We identified an inverse correlation between HuR expression and obesity in humans via the METabolic Syndrome In Men study of Finnish men. Thus, we hypothesized that HuR expression in adipocytes plays a critical role in maintaining metabolic homeostasis.Our results show that, compared to control littermates, adipocyte‐specific HuR‐null (adipo‐HuR−/−) mice display a lean phenotype with decreased fat mass and increased energy expenditure, independent of diet. Interestingly, adipo‐HuR−/− mice also show a disruption of BAT structure and function, with increased lipid droplet size, decreased BAT density, and an inability to thermoregulate when subjected to cold. Examination of skeletal muscle suggests that the lean phenotype in adipo‐HuR−/− mice is due to compensatory shivering to thermoregulate in the absence of functional BAT, a result consistent with UCP1−/− mice. Surprisingly, we found no difference in basal expression of UCP1 in BAT from control and adipo‐HuR−/− mice. However, HuR is activated downstream of β3 adrenergic stimulation and appears to play a role in cold/β3 induced UCP1 expression. Additionally, adipo−HuR−/− mice show a decrease in mitochondrial density in both BAT and subcutaneous (sc) WAT, as well as a decrease in brown/beige adipocyte marker genes (PRDM16, Elovl3) in scWAT.In conclusion, our results demonstrate that HuR plays a central role in the structure and function of BAT. Work is ongoing to identify the transcriptome wide changes in HuR‐dependent gene expression as well as the potential role of HuR in beiging of WAT.Support or Funding InformationThis work was partially funded by a University of Cincinnati Heart, Lung, and Vascular Institute Pilot Grant (MT, APO).This abstract is from the Experimental Biology 2019 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.