[HTML][HTML] Mitophagy is required for brown adipose tissue mitochondrial homeostasis during cold challenge

Y Lu, H Fujioka, D Joshi, Q Li, P Sangwung, P Hsieh… - Scientific Reports, 2018 - nature.com
Y Lu, H Fujioka, D Joshi, Q Li, P Sangwung, P Hsieh, J Zhu, J Torio, D Sweet, L Wang…
Scientific Reports, 2018nature.com
Brown adipose tissue (BAT) is a specialized thermogenic organ in mammals. The ability of
BAT mitochondria to generate heat in response to cold-challenge to maintain core body
temperature is essential for organismal survival. While cold activated BAT mitochondrial
biogenesis is recognized as critical for thermogenic adaptation, the contribution of
mitochondrial quality control to this process remains unclear. Here, we show mitophagy is
required for brown adipocyte mitochondrial homeostasis during thermogenic adaptation …
Abstract
Brown adipose tissue (BAT) is a specialized thermogenic organ in mammals. The ability of BAT mitochondria to generate heat in response to cold-challenge to maintain core body temperature is essential for organismal survival. While cold activated BAT mitochondrial biogenesis is recognized as critical for thermogenic adaptation, the contribution of mitochondrial quality control to this process remains unclear. Here, we show mitophagy is required for brown adipocyte mitochondrial homeostasis during thermogenic adaptation. Mitophagy is significantly increased in BAT from cold-challenged mice (4 °C) and in β-agonist treated brown adipocytes. Blockade of mitophagy compromises brown adipocytes mitochondrial oxidative phosphorylation (OX-PHOS) capacity, as well as BAT mitochondrial integrity. Mechanistically, cold-challenge induction of BAT mitophagy is UCP1-dependent. Furthermore, our results indicate that mitophagy coordinates with mitochondrial biogenesis, maintaining activated BAT mitochondrial homeostasis. Collectively, our in vivo and in vitro findings identify mitophagy as critical for brown adipocyte mitochondrial homeostasis during cold adaptation.
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