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Novel defects in collagen XII and VI expand the mixed myopathy/Ehlers–Danlos syndrome spectrum and lead to variant-specific alterations in the extracellular matrix
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Novel defects in collagen XII and VI expand the mixed myopathy/Ehlers–Danlos syndrome spectrum and lead to variant-specific alterations in the extracellular matrix
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Journal Article
Novel defects in collagen XII and VI expand the mixed myopathy/Ehlers–Danlos syndrome spectrum and lead to variant-specific alterations in the extracellular matrix
2020
Overview
Purpose
To date, heterozygous or homozygous
COL12A1
variants have been reported in 13 patients presenting with a clinical phenotype overlapping with collagen VI–related myopathies and Ehlers–Danlos syndrome (EDS). The small number of reported patients limits thorough investigation of this newly identified syndrome, currently coined as myopathic EDS.
Methods
DNA from 78 genetically unresolved patients fulfilling the clinical criteria for myopathic EDS was sequenced using a next-generation panel of
COL12A1
,
COL6A1
,
COL6A2
, and
COL6A3
.
Results
Among this cohort, we identified four pathogenic heterozygous in-frame exon skipping (∆) defects in
COL12A1
, clustering to the thrombospondin N-terminal region and the adjacent collagenous domain (Δ52, Δ53, Δ54, and Δ56 respectively), one heterozygous
COL12A1
arginine-to-cysteine substitution of unclear significance (p.(Arg1863Cys)), and compound heterozygous pathogenic
COL6A1
variants (c.[98–6G>A];[301C>T]) in one proband. Variant-specific intracellular accumulation of collagen XII chains, extracellular overmodification of the long isoform and near-absence of the short isoform of collagen XII, and extracellular decrease of decorin and tenascin-X were observed for the
COL12A1
variants. In contrast, the
COL6A1
variants abolished collagen VI and V deposition and increased tenascin-X levels.
Conclusion
Our data further support the significant clinical overlap between myopathic EDS and collagen VI–related myopathies, and emphasize the variant-specific consequences of collagen XII defects.
Publisher
Nature Publishing Group US,Elsevier Limited
Subject
/ Adult
/ Biomedical and Life Sciences
/ Child
/ Collagen
/ Collagen Type V - metabolism
/ Collagen Type VI - chemistry
/ Collagen Type XII - chemistry
/ Collagen Type XII - genetics
/ Defects
/ Ehlers-Danlos Syndrome - genetics
/ Ehlers-Danlos Syndrome - metabolism
/ Extracellular Matrix - metabolism
/ Female
/ High-Throughput Nucleotide Sequencing - methods
/ Humans
/ Male
/ Muscular Diseases - genetics
/ Muscular Diseases - metabolism
/ Mutation
/ Pedigree
