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Syntaxin 17, an ancient SNARE paralog, plays different and conserved roles in different organisms.

Shun KatoKohei ArasakiNatsuki TokutomiYuzuru ImaiTsuyoshi InoshitaNobutaka HattoriTaeko SasakiMiyuki SatoYuichi WakanaHiroki InoueMitsuo Tagaya
Published in: Journal of cell science (2021)
Mammalian syntaxin 17 (Stx17) has several roles in processes other than membrane fusion, including in mitochondrial division, autophagosome formation and lipid droplet expansion. In contrast to conventional syntaxins, Stx17 has a long C-terminal hydrophobic region with a hairpin-like structure flanked by a basic amino acid-enriched C-terminal tail. Although Stx17 is one of the six ancient SNAREs and is present in diverse eukaryotic organisms, it has been lost in multiple lineages during evolution. In the present study, we compared the localization and function of fly and nematode Stx17s expressed in HeLa cells with those of human Stx17. We found that fly Stx17 predominantly localizes to the cytosol and mediates autophagy, but not mitochondrial division. Nematode Stx17, on the other hand, is predominantly present in mitochondria and facilitates mitochondrial division, but is irrelevant to autophagy. These differences are likely due to different structures in the C-terminal tail. Non-participation of fly Stx17 and nematode Stx17 in mitochondrial division and autophagy, respectively, was demonstrated in individual organisms. Our results provide an insight into the evolution of Stx17 in metazoa. This article has an associated First Person interview with the first author of the paper.
Keyphrases
  • oxidative stress
  • cell death
  • signaling pathway
  • cell cycle arrest
  • amino acid
  • computed tomography
  • transcription factor
  • multidrug resistant
  • mass spectrometry