Literature DB >> 30290151

A Recurrent De Novo Heterozygous COG4 Substitution Leads to Saul-Wilson Syndrome, Disrupted Vesicular Trafficking, and Altered Proteoglycan Glycosylation.

Carlos R Ferreira1, Zhi-Jie Xia2, Aurélie Clément3, David A Parry4, Mariska Davids5, Fulya Taylan6, Prashant Sharma5, Coleman T Turgeon7, Bernardo Blanco-Sánchez3, Bobby G Ng2, Clare V Logan4, Lynne A Wolfe5, Benjamin D Solomon8, Megan T Cho8, Ganka Douglas8, Daniel R Carvalho9, Heiko Bratke10, Marte Gjøl Haug11, Jennifer B Phillips3, Jeremy Wegner3, Michael Tiemeyer12, Kazuhiro Aoki12, Ann Nordgren13, Anna Hammarsjö13, Angela L Duker14, Luis Rohena15, Hanne Buciek Hove16, Jakob Ek17, David Adams5, Cynthia J Tifft5, Tito Onyekweli5, Tara Weixel5, Ellen Macnamara5, Kelly Radtke18, Zöe Powis18, Dawn Earl19, Melissa Gabriel20, Alvaro H Serrano Russi20, Lauren Brick21, Mariya Kozenko21, Emma Tham13, Kimiyo M Raymond7, John A Phillips22, George E Tiller23, William G Wilson24, Rizwan Hamid22, May C V Malicdan5, Gen Nishimura25, Giedre Grigelioniene13, Andrew Jackson4, Monte Westerfield3, Michael B Bober14, William A Gahl5, Hudson H Freeze2.   

Abstract

The conserved oligomeric Golgi (COG) complex is involved in intracellular vesicular transport, and is composed of eight subunits distributed in two lobes, lobe A (COG1-4) and lobe B (COG5-8). We describe fourteen individuals with Saul-Wilson syndrome, a rare form of primordial dwarfism with characteristic facial and radiographic features. All affected subjects harbored heterozygous de novo variants in COG4, giving rise to the same recurrent amino acid substitution (p.Gly516Arg). Affected individuals' fibroblasts, whose COG4 mRNA and protein were not decreased, exhibited delayed anterograde vesicular trafficking from the ER to the Golgi and accelerated retrograde vesicular recycling from the Golgi to the ER. This altered steady-state equilibrium led to a decrease in Golgi volume, as well as morphologic abnormalities with collapse of the Golgi stacks. Despite these abnormalities of the Golgi apparatus, protein glycosylation in sera and fibroblasts from affected subjects was not notably altered, but decorin, a proteoglycan secreted into the extracellular matrix, showed altered Golgi-dependent glycosylation. In summary, we define a specific heterozygous COG4 substitution as the molecular basis of Saul-Wilson syndrome, a rare skeletal dysplasia distinct from biallelic COG4-CDG. Published by Elsevier Inc.

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Year:  2018        PMID: 30290151      PMCID: PMC6174323          DOI: 10.1016/j.ajhg.2018.09.003

Source DB:  PubMed          Journal:  Am J Hum Genet        ISSN: 0002-9297            Impact factor:   11.025


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