Biology (Aug 2022)

A High-Throughput Search for SFXN1 Physical Partners Led to the Identification of ATAD3, HSD10 and TIM50

  • Nesrine Tifoun,
  • Mourad Bekhouche,
  • José M. De las Heras,
  • Arnaud Guillaume,
  • Sylvina Bouleau,
  • Isabelle Guénal,
  • Bernard Mignotte,
  • Nathalie Le Floch

DOI
https://doi.org/10.3390/biology11091298
Journal volume & issue
Vol. 11, no. 9
p. 1298

Abstract

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Sideroflexins (SFXN, SLC56) are a family of evolutionarily conserved mitochondrial carriers potentially involved in iron homeostasis. One member of the SFXN family is SFXN1, recently identified as a human mitochondrial serine transporter. However, little is known about the SFXN1 interactome, necessitating a high-throughput search to better characterize SFXN1 mitochondrial functions. Via co-immunoprecipitation followed by shotgun mass spectrometry (coIP-MS), we identified 96 putative SFXN1 interactors in the MCF7 human cell line. Our in silico analysis of the SFXN1 interactome highlights biological processes linked to mitochondrial organization, electron transport chains and transmembrane transport. Among the potential physical partners, ATAD3A and 17β-HSD10, two proteins associated with neurological disorders, were confirmed using different human cell lines. Nevertheless, further work will be needed to investigate the significance of these interactions.

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