Osteoporosis and skeletal dysplasia caused by pathogenic variants in SGMS2.

Adult Age of Onset Aged, 80 and over Bone and Bones / diagnostic imaging Calcification, Physiologic / genetics Child Child, Preschool DNA Mutational Analysis Female Heterozygote High-Throughput Nucleotide Sequencing Humans Male Membrane Proteins / genetics Mutation, Missense Nerve Tissue Proteins / genetics Osteochondrodysplasias / diagnosis Osteoporosis / diagnosis Pedigree Transferases (Other Substituted Phosphate Groups) / genetics Young Adult

Bone disease Endocrinology Genetic diseases Genetics Osteoporosis

Journal

JCI insight

ISSN: 2379-3708

Titre abrégé: JCI Insight

Pays: United States

ID NLM: 101676073

Informations de publication

Date de publication:
04 04 2019

Historique:

received: 26 11 2018

accepted: 14 02 2019

pubmed: 20 2 2019

medline: 1 7 2020

entrez: 20 2 2019

Statut: epublish

Résumé

Mechanisms leading to osteoporosis are incompletely understood. Genetic disorders with skeletal fragility provide insight into metabolic pathways contributing to bone strength. We evaluated 6 families with rare skeletal phenotypes and osteoporosis by next-generation sequencing. In all the families, we identified a heterozygous variant in SGMS2, a gene prominently expressed in cortical bone and encoding the plasma membrane-resident sphingomyelin synthase SMS2. Four unrelated families shared the same nonsense variant, c.148C>T (p.Arg50*), whereas the other families had a missense variant, c.185T>G (p.Ile62Ser) or c.191T>G (p.Met64Arg). Subjects with p.Arg50* presented with childhood-onset osteoporosis with or without cranial sclerosis. Patients with p.Ile62Ser or p.Met64Arg had a more severe presentation, with neonatal fractures, severe short stature, and spondylometaphyseal dysplasia. Several subjects had experienced peripheral facial nerve palsy or other neurological manifestations. Bone biopsies showed markedly altered bone material characteristics, including defective bone mineralization. Osteoclast formation and function in vitro was normal. While the p.Arg50* mutation yielded a catalytically inactive enzyme, p.Ile62Ser and p.Met64Arg each enhanced the rate of de novo sphingomyelin production by blocking export of a functional enzyme from the endoplasmic reticulum. SGMS2 pathogenic variants underlie a spectrum of skeletal conditions, ranging from isolated osteoporosis to complex skeletal dysplasia, suggesting a critical role for plasma membrane-bound sphingomyelin metabolism in skeletal homeostasis.

Identifiants

DOI: 10.1172/jci.insight.126180 PMID: 30779713 PMC: PMC6483641

pubmed: 30779713

pii: 126180

doi: 10.1172/jci.insight.126180

pmc: PMC6483641

doi:

pii:

Substances chimiques

Membrane Proteins 0

Nerve Tissue Proteins 0

SGMS1 protein, human EC 2.7.8.-

Transferases (Other Substituted Phosphate Groups) EC 2.7.8.-

Types de publication

Journal Article Research Support, Non-U.S. Gov't

Langues

eng

Sous-ensembles de citation

Subventions

Organisme : NCATS NIH HHS

ID : UL1 TR002538

Pays : United States

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