Literature DB >> 31495489

Loss of SMPD4 Causes a Developmental Disorder Characterized by Microcephaly and Congenital Arthrogryposis.

Pamela Magini1, Daphne J Smits2, Laura Vandervore3, Rachel Schot2, Marta Columbaro4, Esmee Kasteleijn2, Mees van der Ent5, Flavia Palombo6, Maarten H Lequin7, Marjolein Dremmen8, Marie Claire Y de Wit9, Mariasavina Severino10, Maria Teresa Divizia11, Pasquale Striano12, Natalia Ordonez-Herrera13, Amal Alhashem14, Ahmed Al Fares14, Malak Al Ghamdi15, Arndt Rolfs13, Peter Bauer13, Jeroen Demmers16, Frans W Verheijen2, Martina Wilke2, Marjon van Slegtenhorst2, Peter J van der Spek17, Marco Seri18, Anna C Jansen19, Rolf W Stottmann20, Robert B Hufnagel21, Robert J Hopkin22, Deema Aljeaid23, Wojciech Wiszniewski24, Pawel Gawlinski25, Milena Laure-Kamionowska26, Fowzan S Alkuraya27, Hanah Akleh28, Valentina Stanley29, Damir Musaev29, Joseph G Gleeson29, Maha S Zaki30, Nicola Brunetti-Pierri31, Gerarda Cappuccio31, Bella Davidov32, Lina Basel-Salmon33, Lily Bazak32, Noa Ruhrman Shahar32, Aida Bertoli-Avella13, Ghayda M Mirzaa34, William B Dobyns35, Tommaso Pippucci36, Maarten Fornerod5, Grazia M S Mancini37.   

Abstract

Sphingomyelinases generate ceramide from sphingomyelin as a second messenger in intracellular signaling pathways involved in cell proliferation, differentiation, or apoptosis. Children from 12 unrelated families presented with microcephaly, simplified gyral pattern of the cortex, hypomyelination, cerebellar hypoplasia, congenital arthrogryposis, and early fetal/postnatal demise. Genomic analysis revealed bi-allelic loss-of-function variants in SMPD4, coding for the neutral sphingomyelinase-3 (nSMase-3/SMPD4). Overexpression of human Myc-tagged SMPD4 showed localization both to the outer nuclear envelope and the ER and additionally revealed interactions with several nuclear pore complex proteins by proteomics analysis. Fibroblasts from affected individuals showed ER cisternae abnormalities, suspected for increased autophagy, and were more susceptible to apoptosis under stress conditions, while treatment with siSMPD4 caused delayed cell cycle progression. Our data show that SMPD4 links homeostasis of membrane sphingolipids to cell fate by regulating the cross-talk between the ER and the outer nuclear envelope, while its loss reveals a pathogenic mechanism in microcephaly.
Copyright © 2019 American Society of Human Genetics. All rights reserved.

Entities:  

Keywords:  NET13; SMPD4; arthrogryposis; microcephaly; neutral-sphingomyelinase

Mesh:

Substances:

Year:  2019        PMID: 31495489      PMCID: PMC6817560          DOI: 10.1016/j.ajhg.2019.08.006

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


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