Literature DB >> 26833332

CCDC115 Deficiency Causes a Disorder of Golgi Homeostasis with Abnormal Protein Glycosylation.

Jos C Jansen1, Sebahattin Cirak2, Monique van Scherpenzeel3, Sharita Timal3, Janine Reunert4, Stephan Rust4, Belén Pérez5, Dorothée Vicogne6, Peter Krawitz7, Yoshinao Wada8, Angel Ashikov3, Celia Pérez-Cerdá5, Celia Medrano5, Andrea Arnoldy9, Alexander Hoischen10, Karin Huijben11, Gerry Steenbergen11, Dulce Quelhas12, Luisa Diogo13, Daisy Rymen14, Jaak Jaeken14, Nathalie Guffon15, David Cheillan15, Lambertus P van den Heuvel16, Yusuke Maeda17, Olaf Kaiser18, Ulrike Schara18, Patrick Gerner19, Marjolein A W van den Boogert20, Adriaan G Holleboom20, Marie-Cécile Nassogne21, Etienne Sokal21, Jody Salomon22, Geert van den Bogaart23, Joost P H Drenth22, Martijn A Huynen24, Joris A Veltman25, Ron A Wevers11, Eva Morava26, Gert Matthijs14, François Foulquier6, Thorsten Marquardt4, Dirk J Lefeber27.   

Abstract

Disorders of Golgi homeostasis form an emerging group of genetic defects. The highly heterogeneous clinical spectrum is not explained by our current understanding of the underlying cell-biological processes in the Golgi. Therefore, uncovering genetic defects and annotating gene function are challenging. Exome sequencing in a family with three siblings affected by abnormal Golgi glycosylation revealed a homozygous missense mutation, c.92T>C (p.Leu31Ser), in coiled-coil domain containing 115 (CCDC115), the function of which is unknown. The same mutation was identified in three unrelated families, and in one family it was compound heterozygous in combination with a heterozygous deletion of CCDC115. An additional homozygous missense mutation, c.31G>T (p.Asp11Tyr), was found in a family with two affected siblings. All individuals displayed a storage-disease-like phenotype involving hepatosplenomegaly, which regressed with age, highly elevated bone-derived alkaline phosphatase, elevated aminotransferases, and elevated cholesterol, in combination with abnormal copper metabolism and neurological symptoms. Two individuals died of liver failure, and one individual was successfully treated by liver transplantation. Abnormal N- and mucin type O-glycosylation was found on serum proteins, and reduced metabolic labeling of sialic acids was found in fibroblasts, which was restored after complementation with wild-type CCDC115. PSI-BLAST homology detection revealed reciprocal homology with Vma22p, the yeast V-ATPase assembly factor located in the endoplasmic reticulum (ER). Human CCDC115 mainly localized to the ERGIC and to COPI vesicles, but not to the ER. These data, in combination with the phenotypic spectrum, which is distinct from that associated with defects in V-ATPase core subunits, suggest a more general role for CCDC115 in Golgi trafficking. Our study reveals CCDC115 deficiency as a disorder of Golgi homeostasis that can be readily identified via screening for abnormal glycosylation in plasma.
Copyright © 2016 The American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Golgi homeostasis; V-ATPase assembly; Vma22p; alkaline phosphatase; glycosylation; hepatosplenomegaly

Mesh:

Substances:

Year:  2016        PMID: 26833332      PMCID: PMC4746332          DOI: 10.1016/j.ajhg.2015.12.010

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


  48 in total

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