Author
Listed:
- Tomasz M. Witkos
(University of Manchester)
- Wing Lee Chan
(Humboldt-Universität zu Berlin and Berlin Institute of Health
Max Planck Institut fuer Molekulare Genetik)
- Merja Joensuu
(University of Helsinki
The University of Queensland, Brisbane
Minerva Foundation Institute for Medical Research)
- Manuel Rhiel
(Heidelberg University)
- Ed Pallister
(University of York)
- Jane Thomas-Oates
(University of York)
- A. Paul Mould
(University of Manchester)
- Alex A. Mironov
(University of Manchester)
- Christophe Biot
(UMR 8576 - UGSF - Unité de Glycobiologie Structurale et Fonctionnelle)
- Yann Guerardel
(UMR 8576 - UGSF - Unité de Glycobiologie Structurale et Fonctionnelle)
- Willy Morelle
(UMR 8576 - UGSF - Unité de Glycobiologie Structurale et Fonctionnelle)
- Daniel Ungar
(University of York)
- Felix T. Wieland
(Heidelberg University)
- Eija Jokitalo
(University of Helsinki)
- May Tassabehji
(University of Manchester
Manchester Academic Health Sciences Centre (MAHSC))
- Uwe Kornak
(Humboldt-Universität zu Berlin and Berlin Institute of Health
Max Planck Institut fuer Molekulare Genetik)
- Martin Lowe
(University of Manchester)
Abstract
COPI is a key mediator of protein trafficking within the secretory pathway. COPI is recruited to the membrane primarily through binding to Arf GTPases, upon which it undergoes assembly to form coated transport intermediates responsible for trafficking numerous proteins, including Golgi-resident enzymes. Here, we identify GORAB, the protein mutated in the skin and bone disorder gerodermia osteodysplastica, as a component of the COPI machinery. GORAB forms stable domains at the trans-Golgi that, via interactions with the COPI-binding protein Scyl1, promote COPI recruitment to these domains. Pathogenic GORAB mutations perturb Scyl1 binding or GORAB assembly into domains, indicating the importance of these interactions. Loss of GORAB causes impairment of COPI-mediated retrieval of trans-Golgi enzymes, resulting in a deficit in glycosylation of secretory cargo proteins. Our results therefore identify GORAB as a COPI scaffolding factor, and support the view that defective protein glycosylation is a major disease mechanism in gerodermia osteodysplastica.
Suggested Citation
Tomasz M. Witkos & Wing Lee Chan & Merja Joensuu & Manuel Rhiel & Ed Pallister & Jane Thomas-Oates & A. Paul Mould & Alex A. Mironov & Christophe Biot & Yann Guerardel & Willy Morelle & Daniel Ungar &, 2019.
"GORAB scaffolds COPI at the trans-Golgi for efficient enzyme recycling and correct protein glycosylation,"
Nature Communications, Nature, vol. 10(1), pages 1-18, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-018-08044-6
DOI: 10.1038/s41467-018-08044-6
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Citations
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Cited by:
- Stéphanie Kaeser-Pebernard & Christine Vionnet & Muriel Mari & Devanarayanan Siva Sankar & Zehan Hu & Carole Roubaty & Esther Martínez-Martínez & Huiyuan Zhao & Miguel Spuch-Calvar & Alke Petri-Fink &, 2022.
"mTORC1 controls Golgi architecture and vesicle secretion by phosphorylation of SCYL1,"
Nature Communications, Nature, vol. 13(1), pages 1-21, December.
- 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.
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