Isolated cardiomyopathy caused by a DMD nonsense mutation in somatic mosaicism: genetic normalization in skeletal muscle

X-linked dilated cardiomyopathy is a pure cardiac dystrophinopathy phenotype mainly caused by DMD mutations that present a specific transcription effect in cardiac tissue. We report a 26-year-old male who presented with severe dilated cardiomyopathy and high creatine kinase. The patient did not complain of skeletal muscle weakness. A muscle biopsy showed mild dystrophic changes and a low proportion of dystrophin-negative fibres. A molecular study identified a nonsense DMD mutation (p.Arg2098X) in somatic mosaicism. The ratio of mutant versus normal allele in blood and skeletal muscle suggests selective pressure against mutant muscle cells, a process known as genetic normalization. We hypothesize that this process may have mitigated skeletal muscle symptoms in this patient. This is the second report of a DMD somatic mosaic with evidence of genetic normalization in muscle. Somatic DMD mutations should be considered in patients presenting with idiopathic dilated cardiomyopathy.

Abnormal expression of dysferlin in skeletal muscle and monocytes supports primary dysferlinopathy in patients with one mutated allele

BACKGROUND

In some cases, a definitive confirmation of dysferlinopathy cannot be achieved by DNA test, because the mutation is detected in one allele only.

PATIENTS AND METHODS

DYSFERLIN expression in skeletal muscle and peripheral blood monocytes (PBM) was studied by Western blot in two unrelated adult patients. The comparative C(T) method (ΔΔC(T) ) was used to calculate relative changes in dysferlin mRNA determined from real-time quantitative PCR experiments. The dysferlin gene was studied by direct sequencing of cDNA and genomic DNA and by Multiplex Ligation-dependent Probe Amplification (MLPA) analysis.

RESULTS

A comparable severe reduction in dysferlin was demonstrated in both skeletal muscle and PBM. The expression of dysferlin mRNA was significantly reduced. A novel mutation in exon 47 (c.5289G>C) of the dysferlin gene in the heterozygous state, causing an amino acid change (p.Glu1763Asp), was detected in both patients. The MLPA analysis did not reveal any deletion or duplication.

CONCLUSIONS

Dysferlin and/or dysferlin mRNA abnormalities are diagnostic for dysferlinopathy when mutational analysis detects a mutation in one allele only. Analysis of dysferlin mRNA can be helpful for distinguishing symptomatic heterozygotes from such patients.

A new phenotype of dysferlinopathy with congenital onset

We report two patients with a new phenotype of dysferlinopathy presenting as congenital muscular disease. Both patients showed weakness in proximal lower limbs and neck flexor muscles at birth. The presence of normal CK levels during the first years should be noted. Initial MRI showed no abnormalities but short-time-inversion-recovery (STIR) sequences revealed a striking myoedema in gastrocnemius and hamstring muscles at the age of 5. Muscle biopsy showed mild dystrophic features and the absence of dysferlin. Dysferlin gene (DYSF) analysis revealed a p.Ala927LeufsX21 mutation in a homozygous state in both siblings. This new phenotype widens the clinical spectrum of dysferlin myopathies.

Phenotypic variability in a Spanish family with a Caveolin-3 mutation

We report a Spanish family affected from a late onset, hand-involved and autosomal dominant distal myopathy associated to Caveolin-3 mutation. Signs of muscle hyperexcitability and hyperckemia were observed in the youngest relatives but not motor symptoms.

PATIENTS AND METHODS

Neurological examination was performed in all members of the family. Muscle biopsy sample was taken from the proband and DNA genomics was amplified for the two exons of Cav-3 by the polymerase chain reaction (PCR) in all the affected members and in three asymptomatic relatives.

RESULTS

Signs of muscle hyperexcitability and hyperckemia were observed in the affected members from early ages. Cav-3 expression was greatly reduced in the sarcolemma of the proband's muscle. Genetic studies revealed a G --> A transition at nucleotide position 80 in exon 1 of the Cav-3 gene (c.80G>A), generating a Arg --> Gln change at codon 27 (p.R27Q) of the amino acid chain in heterozygous state, while no mutation was found in unaffected members.

CONCLUSIONS

Signs of muscle hyperexcitability and hyperckemia at early ages may predict the development of a late onset autosomal dominant hand-involved myopathy associated to Cav-3 mutation in the family reported herein.

Symptomatic dysferlin gene mutation carriers: characterization of two cases

OBJECTIVE

To describe two symptomatic dysferlin gene mutation carriers.

METHODS

One patient had limb girdle weakness. His brother was diagnosed with limb girdle muscular dystrophy 2B with two mutations in the dysferlin gene (D625Y and E1734G). The second patient had distal weakness. He had two sons with Miyoshi myopathy with a homozygous mutation (G519R). We performed immunofluorescence (dystrophin, DAG proteins, dysferlin, caveolin-3), Western blot (dysferlin, caveolin-3, calpain-3), and real-time PCR (dysferlin) using skeletal muscle samples. We also studied dysferlin in peripheral blood monocytes (PBMs) by Western blot.

RESULTS

In addition to the muscle weakness, both patients showed elevated creatine kinase and abnormal muscle MRI. They presented a mutation in only one allele after screening of the whole gene (skeletal muscle and monocyte mRNA and genomic DNA). A muscle biopsy specimen showed moderate dystrophic changes and patchy dysferlin expression in the sarcolemma. Western blot of both PBMs and skeletal muscle demonstrated a significant reduction in dysferlin. All the other proteins including caveolin-3 and calpain-3 were normal. Real-time PCR showed normal levels of dysferlin mRNA vs the patients' affected relatives.

CONCLUSIONS

The diagnosis of symptomatic carriers of dysferlin mutations should be considered when a pathologic pattern of dysferlin protein is observed.

Dysferlin expression in monocytes: A source of mRNA for mutation analysis

Dysferlin protein is expressed in peripheral blood monocytes. The genomic analysis of the DYSF gene has proved to be time consuming because it has 55 exons. We designed a mutational screening strategy based on cDNA from monocytes to find out whether the mutational analysis could be performed in mRNA from a source less invasive than the muscle biopsy. We studied 34 patients from 23 families diagnosed with dysferlinopathy. The diagnosis was based on clinical findings and on the absence of protein expression using either immunohistochemistry or Western blot of skeletal muscle and/or monocytes. We identified 28 different mutations, 13 of which were novel. The DYSF mutations in both alleles were found in 30 patients and only in one allele in four. The results were confirmed using genomic DNA in 26/34 patients. This is the first report to furnish evidence of reliable mutational analysis using monocytes cDNA and constitutes a good alternative to genomic DNA analysis.

A novel mutation in the caveolin-3 gene causing familial isolated hyperCKaemia

Three members of a family were known to have persistent elevated serum CK levels without muscle weakness. A muscle biopsy showed a partial reduction of caveolin-3 at the sarcolemma of muscle fibres, which was confirmed by Western blot analysis. Mutational analysis identified a novel heterozygous mutation: G-->A transition at nucleotide position 169 in exon 2 in the CAV-3 gene, generating a Val-->Met change at codon 57 of the aminoacid chain. This is the second mutation in the CAV-3 gene associated with familial isolated hyperCKaemia.

[Muscular dystrophy due to a deficit of gamma-sarcoglycan. A report of three patients with the Delta-521t mutation]

INTRODUCTION

gamma-sarcoglicanopathies, also classified as limb girdle muscular dystrophy type 2C (LGMD2C) are a group of autosomal recessive muscular dystrophies due to mutations in 13q12 and subsequent g sarcoglican deficiency. The protein is one of the components of the dystrophin associated glycoprotein complex and is thought to impart structural integrity to the myofibre. The clinical course of the disease may be heterogeneous, ranging from severe forms with onset in the first decade and rapid progression resembling Progressive Duchenne muscular dystrophy (DMD) to milder forms with later onset and slower course. Cases hitherto reported in Spain corresponds to gypsie patients, homozygous for C283Y missense mutation.

CASE REPORTS

Here, we report three new galician (Northwest Spain) patients (one male and one female sibling cases) with a severe DMD like muscular dystrophy homozygous for D 521T. In the first male familial case, initial diagnosis of DMD was made. On reevaluation fourteen years later, inmunohistochemical and molecular studies allowed for a definitive g sarcoglicanopathy diagnosis.

CONCLUSIONS

Patients with a primary sarcoglycanopathy may be clinically indistinguishable from those with the primary dystrophinopathies. Probably, the diagnosis of LGMD are underestimated and a number of male patients diagnosed as DMD really corresponds to a recessive form o muscular dystrophy. Consequently, a definitive diagnosis rests on appropriate inmunohistochemical and molecular analysis, specially in those patients showing a normal pattern of dystrophin and/or suggestive for an autosomal recessive mode of inheritance.

[Early onset adhalinopathy (LGMD2D) mimicking congenital muscular dystrophy]

INTRODUCTION

The recent discovery of the dystrophin-associated complex of glycoproteins led to the delineation of sarcoglycanopathies, a phenotypically similar to dystrophinopathies group of clinically heterogeneous and progressive muscular dystrophies. The objective of this paper is to report the clinical, biochemical, histological, immunohistochemical and molecular genetics characteristics observed in a case of adhalinopathy (alpha-sarcoglycanopathy or LGMD2D) presenting in early months of life and resembling congenital muscular dystrophy.

CLINICAL CASE

An 12-year old school boy, the third son of a healthy, young, non consanguineous couple, presented at birth with bilateral cleft lip, cleft palate and mild hypotonia. At age 6 months it was believed he suffered from a benign form of congenital muscular dystrophy on the basis of clinical, biochemical, electrophysiological and histological findings. From 5 years onwards he had frequent falls and climbing stairs had become increasingly difficult. Also, a positive Gowers 'sign, mild calf hypertrophy, high serum creatine-phosphokinase level and myopathic electromyographic features were present; otherwise, cardiological evaluation and intelligence were normal. A repeated muscular biopsy at 10 years showed dystrophic features as well as selective deficiency of adhalin on immunostaining. DNA analysis demonstrated the patient being homozygote for a R77C mutation. Actually, a marked lumbar lordosis and waddling gait, an impossibility of climbing stairs and arising from the floor in addition to absent rotulian reflexes and mild Achilles retraction are present.

CONCLUSIONS

LGMD2D may present in the first months of life mimicking congenital muscular dystrophy. It seems reasonable that biopsies of all new cases of muscular dystrophies be selectively immohistochemical analyzed, and when it is possible the diagnosis should be confirmed by DNA analysis.

Distal anterior compartment myopathy: a dysferlin mutation causing a new muscular dystrophy phenotype

We report a family with a new phenotype of autosomal recessive muscle dystrophy caused by a dysferlin mutation. The onset of the illness is distal, in the muscles of the anterior compartment group. The disease is rapidly progressive, leading to severe proximal weakness. Muscle biopsy showed moderate dystrophic changes with no vacuoles. Dysferlin immunostaining was negative. Gene analysis revealed a frameshift mutation in the exon 50 (delG5966) of the DYSF gene. This phenotype further demonstrates the clinical heterogeneity of the dysferlinopathies.

Homogeneous phenotype of the gypsy limb-girdle MD with the gamma-sarcoglycan C283Y mutation

OBJECTIVE

To characterize the clinical phenotype of LGMD2C in gypsies.

BACKGROUND

Limb-girdle muscular dystrophy (LGMD) in gypsies of Western Europe is caused by a homozygous C283Y mutation on the same haplotype, suggesting a founder effect.

METHODS

We performed clinical, laboratory, and muscle imaging studies of 40 patients.

RESULTS

Mean age at onset was 5.3 years. One half of the patients had loss of ambulation by the age of 12; 13% still could walk after age 16. Calf hypertrophy, scapular winging, macroglossia, and lumbar hyperlordosis were common. Girdle, trunk, and proximal limb flexor muscles had earlier and more severe involvement. Cardiomyopathy was not observed. Five patients in the third decade of life required mechanical ventilation. Scoliosis was common in the nonambulatory stage.

CONCLUSIONS

LGMD2C in gypsy patients with C283Y mutation presents a rather homogeneous phenotype, characterized by an initial Duchenne-like progressive course followed by a more prolonged survival rate possibly due to the absence of early respiratory impairment and cardiac failure.

Novel mutations in the muscle chloride channel CLCN1 gene causing myotonia congenita in Spanish families

Mutations in the muscular voltage-dependent chloride channel gene (CLCN1), located at 7q35, lead to recessive and dominant myotonia congenita. We report four novel mutations identified in this gene, after clinical, electromyographic, and genetic studies performed on 13 unrelated families. Two of the four mutations (2512insCTCA and A218T) were identified in families with Thomsen's disease, one (Q658X) in a family with Becker's disease, and the fourth (R669C) in a presumably sporadic patient with the Becker phenotype. Although identification of the mutations allows us to establish some genotype/phenotype correlations, this does not wholly account for the clinical heterogeneity and the inheritance patterns of the disease.

Calpainopathy-a survey of mutations and polymorphisms

Limb-girdle muscular dystrophy type 2A (LGMD2A) is an autosomal recessive disorder characterized mainly by symmetrical and selective atrophy of the proximal limb muscles. It derives from defects in the human CAPN3 gene, which encodes the skeletal muscle-specific member of the calpain family. This report represents a compilation of the mutations and variants identified so far in this gene. To date, 97 distinct pathogenic calpain 3 mutations have been identified (4 nonsense mutations, 32 deletions/insertions, 8 splice-site mutations, and 53 missense mutations), 56 of which have not been described previously, together with 12 polymorphisms and 5 nonclassified variants. The mutations are distributed along the entire length of the CAPN3 gene. Thus far, most mutations identified represent private variants, although particular mutations have been found more frequently. Knowledge of the mutation spectrum occurring in the CAPN3 gene may contribute significantly to structure/function and pathogenesis studies. It may also help in the design of efficient mutation-screening strategies for calpainopathies.