Multitissular involvement in a family with LMNA and EMD mutations: Role of digenic mechanism?
Neurology
; 68(22): 1883-94, 2007 May 29.
Article
in En
| MEDLINE
| ID: mdl-17536044
BACKGROUND: Mutations in the EMD and LMNA genes, encoding emerin and lamins A and C, are responsible for the X-linked and autosomal dominant and recessive forms of Emery-Dreifuss muscular dystrophy (EDMD). LMNA mutations can also lead to several other disorders, collectively termed laminopathies, involving heart, fat, nerve, bone, and skin tissues, and some premature ageing syndromes. METHODS: Fourteen members of a single family underwent neurologic, electromyographic, and cardiologic assessment. Gene mutation and protein expression analyses were performed for lamins A/C and emerin. RESULTS: Clinical investigations showed various phenotypes, including isolated cardiac disease (seven patients), axonal neuropathy (one patient), and a combination of EDMD with axonal neuropathy (two patients), whereas five subjects remained asymptomatic. Genetic analyses identified the coincidence of a previously described homozygous LMNA mutation (c.892C-->T, p. R298C) and a new in-frame EMD deletion (c.110-112delAGA, p. delK37), which segregate independently. Analyses of the contribution of these mutations showed 1) the EMD codon deletion acts in X-linked dominant fashion and was sufficient to induce the cardiac disease, 2) the combination of both the hemizygous EMD and the homozygous LMNA mutations was necessary to induce the EDMD phenotype, 3) emerin was present in reduced amount in EMD-mutated cells, and 4) lamin A/C and emerin expression was most dramatically affected in the doubly mutated fibroblasts. CONCLUSIONS: This highlights the crucial role of lamin A/C-emerin interactions, with evidence for synergistic effects of these mutations that lead to Emery-Dreifuss muscular dystrophy as the worsened result of digenic mechanism in this family.
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Collection:
01-internacional
Database:
MEDLINE
Main subject:
Nuclear Proteins
/
Muscular Dystrophy, Emery-Dreifuss
/
Lamin Type A
/
Membrane Proteins
Limits:
Adolescent
/
Adult
/
Female
/
Humans
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Male
/
Middle aged
Language:
En
Journal:
Neurology
Year:
2007
Document type:
Article
Affiliation country:
France
Country of publication:
United States