Disease Models & Mechanisms (Apr 2022)

Adipose tissue-specific ablation of PGC-1β impairs thermogenesis in brown fat

  • Jiří Funda,
  • Josep A. Villena,
  • Kristina Bardova,
  • Katerina Adamcova,
  • Illaria Irodenko,
  • Pavel Flachs,
  • Ivana Jedlickova,
  • Eliska Haasova,
  • Martin Rossmeisl,
  • Jan Kopecky,
  • Petra Janovska

DOI
https://doi.org/10.1242/dmm.049223
Journal volume & issue
Vol. 15, no. 4

Abstract

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Impaired thermogenesis observed in mice with whole-body ablation of peroxisome proliferator-activated receptor-γ coactivator-1β (PGC-1β; officially known as PPARGC1B) may result from impaired brown fat (brown adipose tissue; BAT) function, but other mechanism(s) could be involved. Here, using adipose-specific PGC-1β knockout mice (PGC-1β-AT-KO mice) we aimed to learn whether specific PGC-1β ablation in adipocytes is sufficient to drive cold sensitivity. Indeed, we found that warm-adapted (30°C) mutant mice were relatively sensitive to acute cold exposure (6°C). When these mice were subjected to cold exposure for 7 days (7-day-CE), adrenergic stimulation of their metabolism was impaired, despite similar levels of thermogenic uncoupling protein 1 in BAT in PGC-1β-AT-KO and wild-type mice. Gene expression in BAT of mutant mice suggested a compensatory increase in lipid metabolism to counteract the thermogenic defect. Interestingly, a reduced number of contacts between mitochondria and lipid droplets associated with low levels of L-form of optic atrophy 1 was found in BAT of PGC-1β-AT-KO mice. These genotypic differences were observed in warm-adapted mutant mice, but they were partially masked by 7-day-CE. Collectively, our results suggest a role for PGC-1β in controlling BAT lipid metabolism and thermogenesis. This article has an associated First Person interview with the first author of the paper.

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