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Congenital disorder of glycosylation caused by starting site-specific variant in syntaxin-5

Author

Listed:
  • Peter T. A. Linders

    (Radboud University Medical Center)

  • Eveline C. F. Gerretsen

    (Radboud University Medical Center)

  • Angel Ashikov

    (Radboud University Medical Center
    Radboud University Medical Center)

  • Mari-Anne Vals

    (Children’s Clinic, Tartu University Hospital
    University of Tartu)

  • Rinse Boer

    (University of Groningen)

  • Natalia H. Revelo

    (Radboud University Medical Center)

  • Richard Arts

    (Radboud University Medical Center)

  • Melissa Baerenfaenger

    (Radboud University Medical Center)

  • Fokje Zijlstra

    (Radboud University Medical Center)

  • Karin Huijben

    (Radboud University Medical Center)

  • Kimiyo Raymond

    (Mayo College of Medicine)

  • Kai Muru

    (University of Tartu
    United Laboratories, Tartu University Hospital)

  • Olga Fjodorova

    (United Laboratories, Tartu University Hospital)

  • Sander Pajusalu

    (University of Tartu
    United Laboratories, Tartu University Hospital)

  • Katrin Õunap

    (University of Tartu
    United Laboratories, Tartu University Hospital)

  • Martin Beest

    (Radboud University Medical Center)

  • Dirk Lefeber

    (Radboud University Medical Center
    Radboud University Medical Center)

  • Geert Bogaart

    (Radboud University Medical Center
    University of Groningen)

Abstract

The SNARE (soluble N-ethylmaleimide-sensitive factor attachment protein receptor) protein syntaxin-5 (Stx5) is essential for Golgi transport. In humans, the STX5 mRNA encodes two protein isoforms, Stx5 Long (Stx5L) from the first starting methionine and Stx5 Short (Stx5S) from an alternative starting methionine at position 55. In this study, we identify a human disorder caused by a single missense substitution in the second starting methionine (p.M55V), resulting in complete loss of the short isoform. Patients suffer from an early fatal multisystem disease, including severe liver disease, skeletal abnormalities and abnormal glycosylation. Primary human dermal fibroblasts isolated from these patients show defective glycosylation, altered Golgi morphology as measured by electron microscopy, mislocalization of glycosyltransferases, and compromised ER-Golgi trafficking. Measurements of cognate binding SNAREs, based on biotin-synchronizable forms of Stx5 (the RUSH system) and Förster resonance energy transfer (FRET), revealed that the short isoform of Stx5 is essential for intra-Golgi transport. Alternative starting codons of Stx5 are thus linked to human disease, demonstrating that the site of translation initiation is an important new layer of regulating protein trafficking.

Suggested Citation

  • Peter T. A. Linders & Eveline C. F. Gerretsen & Angel Ashikov & Mari-Anne Vals & Rinse Boer & Natalia H. Revelo & Richard Arts & Melissa Baerenfaenger & Fokje Zijlstra & Karin Huijben & Kimiyo Raymond, 2021. "Congenital disorder of glycosylation caused by starting site-specific variant in syntaxin-5," Nature Communications, Nature, vol. 12(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-26534-y
    DOI: 10.1038/s41467-021-26534-y
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    References listed on IDEAS

    as
    1. Francesco Parlati & James A. McNew & Ryouichi Fukuda & Rebecca Miller & Thomas H. Söllner & James E. Rothman, 2000. "Topological restriction of SNARE-dependent membrane fusion," Nature, Nature, vol. 407(6801), pages 194-198, September.
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    3. Mary E. Dickinson & Ann M. Flenniken & Xiao Ji & Lydia Teboul & Michael D. Wong & Jacqueline K. White & Terrence F. Meehan & Wolfgang J. Weninger & Henrik Westerberg & Hibret Adissu & Candice N. Baker, 2016. "High-throughput discovery of novel developmental phenotypes," Nature, Nature, vol. 537(7621), pages 508-514, September.
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