Syntaxin 18 Defects in Human and Zebrafish Unravel Key Roles in Early Cartilage and Bone Development-Reference-Cited by-同舟云学术

Syntaxin 18 Defects in Human and Zebrafish Unravel Key Roles in Early Cartilage and Bone Development

Published:2023-09-30 Issue:11 Volume:38 Page:1718-1730
ISSN:0884-0431
Container-title:Journal of Bone and Mineral Research
language:en
Short-container-title:J of Bone & Mineral Res

Author:

Guillemyn Brecht¹^ORCID,De Saffel Hanna¹,Bek Jan Willem¹^ORCID,Tapaneeyaphan Piyanoot¹,De Clercq Adelbert¹,Jarayseh Tamara¹,Debaenst Sophie¹,Willaert Andy¹,De Rycke Riet²³,Byers Peter H⁴⁵,Rosseel Toon¹,Coucke Paul¹,Blaumeiser Bettina⁶,Syx Delfien¹,Malfait Fransiska¹,Symoens Sofie¹

Affiliation:

1. Department of Biomolecular Medicine, Center for Medical Genetics Ghent Ghent University Hospital Ghent Belgium

2. Department of Biomedical Molecular Biology Ghent University Ghent Belgium

3. VIB Center for Inflammation Research and Bioimaging Core Ghent Belgium

4. Department of Laboratory Medicine and Pathology University of Washington Seattle WA USA

5. Department of Medicine (Medical Genetics) University of Washington Seattle WA USA

6. Department of Medical Genetics University and University Hospital of Antwerp Antwerp Belgium

Abstract

ABSTRACTSNARE proteins comprise a conserved protein family responsible for catalyzing membrane fusion during vesicle traffic. Syntaxin18 (STX18) is a poorly characterized endoplasmic reticulum (ER)‐resident t‐SNARE. Recently, together with TANGO1 and SLY1, its involvement was shown in ER to Golgi transport of collagen II during chondrogenesis. We report a fetus with a severe osteochondrodysplasia in whom we identified a homozygous substitution of the highly conserved p.Arg10 to Pro of STX18. CRISPR/Cas9‐mediated Stx18 deficiency in zebrafish reveals a crucial role for Stx18 in cartilage and bone development. Furthermore, increased expression of multiple components of the Stx18 SNARE complex and of COPI and COPII proteins suggests that Stx18 deficiency impairs antero‐ and retrograde vesicular transport in the crispant stx18 zebrafish. Taken together, our studies highlight a new candidate gene for a recessive form of osteochondrodysplasia, thereby possibly broadening the SNAREopathy phenotypic spectrum and opening new doors toward future research avenues. © 2023 American Society for Bone and Mineral Research (ASBMR).

Funder

Fonds Wetenschappelijk Onderzoek

Universiteit Gent

Publisher

Oxford University Press (OUP)

Subject

Orthopedics and Sports Medicine,Endocrinology, Diabetes and Metabolism

Reference39 articles.

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2. SNARE complex assembly and disassembly

3. SNAREopathies: Diversity in Mechanisms and Symptoms

4. SNAREs — engines for membrane fusion

5. Role of syntaxin 18 in the organization of endoplasmic reticulum subdomains

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