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SPRING is a Dedicated Licensing Factor for SREBP-Specific Activation by S1P.

Sebastian HendrixJosephine M E TanKlevis NdojJenina KingmaMasoud ValilooLobke F ZijlstraRoelof OttenhoffNabil G SeidahAnke LoreggerDaniel L KoberNoam Zelcer
Published in: Molecular and cellular biology (2024)
SREBP transcription factors are central regulators of lipid metabolism. Their proteolytic activation requires ER to the Golgi translocation and subsequent cleavage by site-1-protease (S1P). Produced as a proprotein, S1P undergoes autocatalytic cleavage from its precursor S1P A to mature S1P C form. Here, we report that SPRING (previously C12ORF29) and S1P interact through their ectodomains, and that this facilitates the autocatalytic cleavage of S1P A into its mature S1P C form. Reciprocally, we identified a S1P recognition-motif in SPRING and demonstrate that S1P-mediated cleavage leads to secretion of the SPRING ectodomain in cells, and in liver-specific Spring knockout (LKO) mice transduced with AAV-mSpring. By reconstituting SPRING variants into SPRING KO cells we show that the SPRING ectodomain supports proteolytic maturation of S1P and SREBP signaling, but that S1P-mediated SPRING cleavage is not essential for these processes. Absence of SPRING modestly diminishes proteolytic maturation of S1P A→C and trafficking of S1P C to the Golgi. However, despite reaching the Golgi in SPRING KO cells, S1P C fails to rescue SREBP signaling. Remarkably, whereas SREBP signaling was severely attenuated in SPRING KO cells and LKO mice, that of ATF6, another S1P substrate, was unaffected in these models. Collectively, our study positions SPRING as a dedicated licensing factor for SREBP-specific activation by S1P.
Keyphrases
  • induced apoptosis
  • cell cycle arrest
  • transcription factor
  • gene expression
  • signaling pathway
  • adipose tissue
  • dna methylation
  • metabolic syndrome
  • insulin resistance
  • genome wide
  • estrogen receptor