Fatty Acid Metabolite Profiling Reveals Oxylipins as Markers of Brown but Not Brite Adipose Tissue.

Ez-Zoubir Amri,Sebastian Dieckmann,Stefanie Maurer,Cécilia Colson,Martin Klingenspor,Tobias Fromme,Kirsi A. Virtanen

doi:10.3389/fendo.2020.00073

Abstract

Metabolites of omega-6 and omega-3 polyunsaturated fatty acids are important signaling molecules implicated in the control of adipogenesis and energy balance regulation. Some of these metabolites belonging to the group of oxylipins have been associated with non-shivering thermogenesis in mice mediated by brown or brite adipose tissue. We aimed to identify novel molecules with thermogenic potential and to clarify the relevance of these findings in a translational context. Therefore, we characterized and compared the oxylipin profiles of murine and human adipose tissues with different abundance of brown or brite adipocytes. A broad panel of 36 fatty acid metabolites was quantified in brown and white adipose tissues of C57BL/6J mice acclimatized to different ambient temperatures and in biopsies of human supraclavicular brown and white adipose tissue. The oxylipin profile of murine brite adipose tissue was not distinguishable from white adipose tissue, suggesting that adipose tissue browning in vivo is not associated with major changes in the oxylipin metabolism. Human brown and white adipose tissue also exhibited similar metabolite profiles. This is in line with previous studies proposing human brown adipose tissue to resemble the nature of murine brite adipose tissue representing a heterogeneous mixture of brite and white adipocytes. Although the global oxylipin profile served as a marker for the abundance of thermogenic adipocytes in bona fide brown but not white adipose tissue, we identified 5-HETE and 5,6-EET as individual compounds consistently associated with the abundance of brown or brite adipocytes in human BAT and murine brite fat. Further studies need to establish whether these candidates are mere markers or functional effectors of thermogenic capacity.

Highlights

Obesity is one of today’s major health burdens with a steadily increasing prevalence
The rediscovery of functional brown adipose tissue (BAT) in adult humans has intensified efforts to characterize the molecular properties of human adipose tissues and to identify novel thermogenic effectors intended for therapeutic use
In order to confirm the thermogenic potential of BAT vs. white adipose tissue (WAT) in both humans and mice, Uncoupling protein 1 (Ucp1) mRNA expression was quantified as a surrogate marker for the abundance of thermogenic competent adipocytes

Summary

Introduction

Obesity is one of today’s major health burdens with a steadily increasing prevalence. In contrast to BAT, is an inducible type of fat originating from the recruitment of brown-like, so called brite (or beige) cells with thermogenic properties in WAT Both tissues dissipate chemical energy from fatty acids and glucose to generate heat, increasing energy expenditure. Several natural compounds and drugs are associated with the activation and recruitment of BAT in mice and humans [9, 10] Among these are metabolites of omega-6 and omega-3 polyunsaturated fatty acids (PUFA). The aim of the current study was to characterize the oxylipin profiles of murine and human adipose tissues with different abundance of brown and brite adipocytes to identify novel molecules with thermogenic potential in a translational context

Objectives

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Conclusion