Metabolically Active Human Brown Adipose Tissue Derived Stem Cells

Author:

Silva Francisco J1,Holt Dolly J1,Vargas Vanessa1,Yockman James1,Boudina Sihem2,Atkinson Donald1,Grainger David W.3,Revelo Monica P.4,Sherman Warren5,Bull David A.1,Patel Amit N.1

Affiliation:

1. Department of Surgery Division of Cardiothoracic Surgery University of Utah, Salt Lake City, Utah, USA

2. Department of Internal Medicine Division of Endocrinology and Metabolism University of Utah, Salt Lake City, Utah, USA

3. Department of Pharmaceutics and Pharmaceutical Chemistry University of Utah, Salt Lake City, Utah, USA

4. Department of Pathology University of Utah, Salt Lake City, Utah, USA

5. Division of Cardiology Columbia University Medical Center, New York, New York, USA

Abstract

Abstract Brown adipose tissue (BAT) plays a key role in the evolutionarily conserved mechanisms underlying energy homeostasis in mammals. It is characterized by fat vacuoles 5–10 μm in diameter and expression of uncoupling protein one, central to the regulation of thermogenesis. In the human newborn, BAT depots are typically grouped around the vasculature and solid organs. These depots maintain body temperature during cold exposure by warming the blood before its distribution to the periphery. They also ensure an optimal temperature for biochemical reactions within solid organs. BAT had been thought to involute throughout childhood and adolescence. Recent studies, however, have confirmed the presence of active BAT in adult humans with depots residing in cervical, supraclavicular, mediastinal, paravertebral, and suprarenal regions. While human pluripotent stem cells have been differentiated into functional brown adipocytes in vitro and brown adipocyte progenitor cells have been identified in murine skeletal muscle and white adipose tissue, multipotent metabolically active BAT-derived stem cells from a single depot have not been identified in adult humans to date. Here, we demonstrate a clonogenic population of metabolically active BAT stem cells residing in adult humans that can: (a) be expanded in vitro; (b) exhibit multilineage differentiation potential; and (c) functionally differentiate into metabolically active brown adipocytes. Our study defines a new target stem cell population that can be activated to restore energy homeostasis in vivo for the treatment of obesity and related metabolic disorders. Stem Cells  2014;32:572–581

Publisher

Oxford University Press (OUP)

Subject

Cell Biology,Developmental Biology,Molecular Medicine

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