4.5 Article

Mfsd2a encodes a novel major facilitator superfamily domain-containing protein highly induced in brown adipose tissue during fasting and adaptive thermogenesis

Journal

BIOCHEMICAL JOURNAL
Volume 416, Issue -, Pages 347-355

Publisher

PORTLAND PRESS LTD
DOI: 10.1042/BJ20080165

Keywords

beta-adrenergic receptor (beta AR); brown adipose tissue (BAT); permease; symporter; thermogenesis

Funding

  1. NIEHS (National Institute of Environmental Health Sciences)
  2. NIH (National Institutes of Health) [Z01-ES-101586]
  3. CNRU (Clinical Nutrition Research Unit) Center [1P30 DK072476]
  4. NIDDK (National Institute of Diabetes and Digestive and Kidney Disease)

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This study describes the identification of Mfsd2a (major facilitator superfamily domain-containing protein 2a), a novel mammalian major facilitator superfamily domain-containing protein, and ail additional closely related protein, Mfsd2b. Most intron/exon junctions are conserved between the two genes, suggesting that they are derived from a common ancestor. Mfsd2a and Mfsd2b share a 12 transmembrane alpha-helical domain structure that bears greatest similarity to that of the bacterial Na+/melibiose symporters. Confocal microscopy demonstrated that Mfsd2a localizes to the endoplasmic reticulum. Mfsd2a is expressed in many tissues and is highly induced in liver and BAT (brown adipose tissue) during fasting. Mfsd2a displays an oscillatory expression profile in BAT and liver, consistent with a circadian rhythm. Although the basal level of Mfsd2a expression is relatively low in mouse BAT, it is greatly induced during cold-induced thermogenesis and after treatment with beta AR (beta-adrenergic receptor) agonists. This induction is totally abolished in beta-less (beta AR-deficient) mice. These findings indicate that Mfsd2a is greatly up-regulated in BAT during thermogenesis and that its induction is controlled by the beta AR signalling pathway. The observed induction of Mfsd2a expression in cultured BAT cells by dibutyryl-cAMP is in agreement with this conclusion. The present study suggests that Mfsd2a plays a role in adaptive thermogenesis.

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