Loss of Mfn1 but not Mfn2 enhances adipogenesis

  1. JP Mann
  2. LC Tabara
  3. A Alvarez-Guaita
  4. L Dong
  5. A Haider
  6. K Lim
  7. P Tandon
  8. JEN Minchin
  9. S O’Rahilly
  10. S Patel
  11. DJ Fazakerley
  12. J Prudent
  13. RK Semple
  14. DB Savage
4 evaluations Published on
Read the full article Related papers
This article on Sciety

Abstract

Objective

A biallelic missense mutation in mitofusin 2 ( MFN2 ) causes multiple symmetric lipomatosis and partial lipodystrophy, implicating disruption of mitochondrial fusion or interaction with other organelles in adipocyte differentiation, growth and/or survival. In this study, we aimed to document the impact of loss of mitofusin 1 ( Mfn1 ) or 2 ( Mfn2) on adipogenesis in cultured cells.

Methods

We characterised adipocyte differentiation of wildtype (WT), Mfn1 -/- and Mfn2 -/- mouse embryonic fibroblasts (MEFs) and 3T3-L1 preadipocytes in which Mfn1 or 2 levels were reduced using siRNA.

Results

Mfn1 -/- MEFs displayed striking fragmentation of the mitochondrial network, with surprisingly enhanced propensity to differentiate into adipocytes, as assessed by lipid accumulation, expression of adipocyte markers ( Plin1, Fabp4, Glut4, Adipoq ), and insulin-stimulated glucose uptake. RNA sequencing revealed a corresponding pro-adipogenic transcriptional profile including Pparg upregulation. Mfn2 -/- MEFs also had a disrupted mitochondrial morphology, but in contrast to Mfn1 −/- MEFs they showed reduced expression of adipocyte markers and no increase in insulin-stimulated glucose uptake. Mfn1 and Mfn2 siRNA mediated knockdown studies in 3T3-L1 adipocytes generally replicated these findings.

Conclusions

Loss of Mfn1 but not Mfn2 in cultured pre-adipocyte models is pro-adipogenic. This suggests distinct, non-redundant roles for the two mitofusin orthologues in adipocyte differentiation.

Related articles

Related articles are currently not available for this article.